The URL can be used to link to this page

Home My WebLink About09272010 City Council Packet/R10-093 Backup,- K � 0 - 1 ) — F6 P�r� o �> The Managers of the Railbelt Utilities have formed and requested an Ad -Hoc Reliability Group to develop standards to better emulate national utility practices and to provide direction to the Railbelt Utilities on how to cooperatively operate their systems for the betterment of the interconnected electrical system. The Group has drafted these standards giving careful consideration to the many technical and operational issues involved with interconnecting entities to the Alaska Railbelt Electrical System (also referred to as the "Railbelt Interconnection" or "The System ") and with five overarching goals: • First, these standards set the minimum requirements for interconnection to The System; serving utilities may have additional or more stringent interconnection standards. • Second, to the extent practical, these interconnection standards should be performance based rather than requirements based. • Third, to the extent practical, interconnecting entities should not be allowed to degrade the performance or reliability of The System. Such degradation in performance shall be determined by modeling the Railbelt Electrical System using the boundary dispatch cases against all N -I and probable N -2 contingencies. • Fourth, interconnecting entities should not be required to build or improve System facilities beyond those necessary to meet the third overarching goal (above). • Fifth, the interconnecting entity, as a condition of interconnection, shall abide by all other applicable Railbelt standards as they may be modified or implemented from time to time. Given the complex and technical nature of the subject, the authors have worked diligently to maintain a high level of clarity throughout this document, in order to meet the needs of the participants, but they recognize that these standards are often based upon highly technical subject matter. To aid in understanding and implementing these requirements and criteria, the Intertie Management Committee will require potential entities to obtain the assistance of qualified engineering professionals with specific expertise in the areas of electrical supply systems, power system analysis and protection as well as control. Such professionals must have demonstrated experience in modeling, designing, constructing, commissioning and operating facilities on small stability - limited interconnections. These guidelines are subject to revision, at any time, at the discretion of the Ad -Hoc Railbelt Operating Guidelines Committee or the Intertie Management Committee (as defined in the Railbelt Operating Standards). This document is not intended to be a design specification. •suoilouajui aininj aoj Xluo lnq `asi v Xvw spaau oql su suopouus agi 32uugo of paziiotpnu si aallituuto:) luatuaguurw ailjalul oq L •oouutlduto3 -uoN .to3 x'JIU l suoilouuS atp 01 aa3 spaupumS atp ui pogljosop osimaaglo iou uagm oouuildutoD -uoN Jo slanarl JOJ suopouuS •uotIuUUOJUi paaanoo uou ao3 paoua.ta3az aq of anuiluoo pinogs sivautnoop DDSV otU sluoutnoop DDSV aga ui paaanoo Xpuaalu sum oidol oql lugl lump agl of ,,soijiiijn oi.tjoala paloauuoojajui 3o Xliiiquiiaj otp aoj uijai!jD 2uiuuuid DDSd„ oql puu « sap!nq 2upundp atltalul u1suld putt sonjilill paloouuoojajul ao3 sopino i?uilujodp DDSd„ sluautnoop DDsv atp ui punoj uiialiao Xliiiquilaz snoinaad atp opostadns spaupuulS liagliu -d osogl uotlu2ilgo ftiluln2aa a2zul u anuq , �Ia?ti1 Ipm ing `uoilu .2ilgo uids ou of aillii anal Xotp jugl pug Xutu saotnos lan3 algugoludsip -uou grim lnq (AUN Oi jutp ssol) sliun Iluuts trim satlizoglnV fuiouulug •poluurtum aq Xuut suoilouus .tagljnj suoilouz3ui Injll!m ioj Imp puu `suoilouajui zouitu aoj are sulnuuo3 osatp lugl pa oq pinogs 11 •aouuuuojzaduou Jo Juana 3141 ut sptupums oql tpim oouuilduzoo S,XITlua uu azintluaoui Ipm jutp sulnuuoj anuq Satp jugs ui utatp olui llinq uoiluog!pow .zoinugaq jo lunoutu autos anuq spaupuuls asst ,L •sanaasaa Suiluln2w puu `soAiasaa 2uiuuids `sanjasaz 2utluzado `,iounbapu aoinosat atp .to3 sluatua.tinbat Jas spiupuuls osaq L •foilod sanaas3.8 oql si sp.zupuuls jo 13s Isul oqZ •auttl 13no soSuugo tualsXS llogliu2I atp su Iiutil sigl m31Aaz 01 Juum fiuuz aajltutuzoD IuauzaSuuuW atltalul atp `atnln3 atp ul •aouugtnjsip utalsxs aofuut u Sutluoipui palupiui atu suuulu Xouonbaaj jo anaal jS.Ig aql aaagm Ianal atp si sigl `sialuao lotluoo tno jo lsout uI 'zH i'0 dozp of .iouanbaaj tualsxs aqj asnuo Ipm tiun t1kW 01 u jo ssol aaagm suiq tualsXs luaztno ino uo pasuq si lituil siq.L 'AA,W Oi uugl .taluat2 luauzdinbo /sailtluo of poilddu on sptupuuls asogL •szasrl pug puu `uotssltus `uo I oj spaupuulS loouuooralul otp si sptupuuls jo Jas puooas aqZ •!?utlnpagos o2uugotalui glim Suiluap sptupuuls oql azu s,,LNIXV oq.L •Xliluo luool aql Xq aanal luaol oql lu posodwi oq Xtw sluotuajinbaa uoUoauuooaalul (Iuool) luaguigs aaout iutp puu apim ilagliu2I sutnuziutut atu spaupuulS uoipoouuooaalul asatp jugj pajou oq pinogs 11 •.toi palluo an spnpuuiS uotloauuootalul .ro3 sluautazinbaa jutp spaupuuls asogl ui si 1I •sSutluz puu aouuualuiuut `uotjorujsuoo mou tpim Suiluap spmpuuis aql are s, :)VjXV aqL '•To3 palluo si Xotlod san.zasaIl u zoj luatuaainbaa u jugl spmpuuls osagl ui si 11 - ioglo goua grim aliom (Xitaoglnu 2uiouuluq umo aiagl goua are puu palu:123lui Xlluoiaaan aiu satlililn uullsuld oql jo Isow) soiluoglnu 2utouuluq moq glim Ouiluap sprepuuls oql atu s"Ivgxv aqs •u:lsuld jo opislno swinbaa DllgN lugm of jupwis atu spzupuuls asogZ •uzaisAs oialoolo olquilaa u aoj apinoid Isnut saijilua moq sougop sptupuuls 3o los I sig aq L :smollo3 su poziuvSjo are sluautnoop luiluassa aqZ Each Entity desiring to interconnect to the Railbelt System must,fill out an Entity Function Matrix (shown below) checking off the functions which they believe they perform. This document will be kept by the Intertie Management Committee and in part is used to determine its obligations as well as what areas it may participate in. Vertically integrated Utilities may find themselves participating in most, if not all categories. Entity Function Balancing Authority Compliance Enforcement Authority Distribution Provider Generator Operator Generator Owner Interchange Authority Load - Serving Entity Market Operator (Resource Integrator) Reliability Coordinator Planning Coordinator Purchasing - Selling Entity Reliability Assurer Resource Planner Standards Developer Transmission Operator Transmission Owner Transmission Planner Transmission Service Provider Sanctions Matrix for Non Compliance Number of Occurrences at a Given Level within Specified Period Level of Non- 1 2 3 4 or more Compliance Level 1 Letter (A) Letter (B) Higher of $1000 Higher of $2000 or $10 per MW or $20 per MW of Sanction of Sanction Measure Measure Level 2 Letter (B) Higher of $1000 Higher of $2000 Higher of $4000 or $10 per MW or $20 per MW or $40 per MW of Sanction of Sanction of Sanction Measure Measure Measure Level 3 Higher of $1000 Higher of $2000 Higher of $4000 Higher of $6000 or $10 per MW or $20 per MW or $40 per MW or $60 per MW of Sanction of Sanction of Sanction of Sanction Measure Measure Measure Measure Level 4 Higher of $2000 Higher of $4000 Higher of $6000 Higher of or $20 per MW or $40 per MW or $60 per MW $10,000 or $100 of Sanction of Sanction of Sanction per MW of Measure Measure Measure Sanction Measure Alaskan Railbelt Standard AKBAL -001 -0 — Real Power Balancing Control Performance A. Introduction 1. Title: Real Power Balancing Control Performance 2. Number: AKBAL -001 -0 3. Purpose: To maintain Interconnection steady -state frequency within defined limits by balancing real power demand and supply in real -time. 4. Applicability: 4.1. Balancing Authorities 5. Effective Date: TBD B. Requirements R1. Each Balancing Authority shall operate such that, on a rolling 12 -month basis, the average of the clock - minute averages of the Balancing Authority's Area Control Error (ACE) divided by lOB (B is the clock- minute average of the Balancing Authority Area's Frequency Bias) times the corresponding clock- minute averages of the Interconnection's Frequency Error is less than a specific limit. This limit F-i is a constant derived from a targeted frequency bound (separately calculated for each Interconnection) that is reviewed and set as necessary by the Intertie Management Committee. AVGPeriod ACE; [( ACE,. AVGPer;od _ IOB. AF, ; or 2 IOBj < 1 , The equation for ACE is: ACE = (NI — NI — IOB (F — Fs) — IME where: • NI is the algebraic sum of actual flows on all tie lines. • NI is the algebraic sum of scheduled flows on all tie lines. • B is the Frequency Bias Setting (MW /0.1 Hz) for the Balancing Authority. The constant factor 10 converts the frequency setting to MW/Hz. • F is the actual frequency. • F is the scheduled frequency. F is normally 60 Hz but may be offset to effect manual time error corrections. • I is the meter error correction factor typically estimated from the difference between the integrated hourly average of the net tie line flows (NI and the hourly net interchange demand measurement (megawatt- hour). This term should normally be very small or zero. R2. Each Balancing Authority shall operate such that its average ACE for at least 90% of clock - ten- minute periods (6 non - overlapping periods per hour) during a calendar month is within a specific limit, referred to as L, 1 of 7 Effective Date: TBD L to Z a91-a ;ea em oeu3 SOT - alnunu-�I�la SOT — alnunu -jaop l saga Jin�chues 70v a,nu!u- Koopu!sap4a8uildLuu, 3 'alnuiti -310010 uan12 u 2uilnp aloAo 2uilduius goua lo3 (.song Xouonboij io3 puu gDV io3 ` - o - !) algui.iun painsuaui pilun s,Xliaogand 2uiouulug ,3uijiodaz aqa jo OiNWnu ailj s► aAianu alnutui -xoolo d - s$uijjzS suig Xouanboi3 puu ioug Xouanbaad `gDV 3o saiivaanu aInuiui -auo tioi3 sauioo ulup 3o 1iun aisuq Qq L 'uIup Jo sgIuoui Z I UJOIJ pani.iap s► 4'u«„-zt3D xopul 2ullu.1 aqZ IN luauiaiinboN u► pou!jop s1 1 3 :aiagM JD :punoq iouonboij aa2.iul oq; �q papin►p sgjuoui Z I .iano pajujntm03u siolo vied aouuilduioo alnu►ui -auo IIu 3o opm u si `3D `jolou3 aouuilduioo pa;ulaa- Xouonbai3 oqZ 0 /0001 * (3D - Z) = I SdD :smollo3 su 32uluaoiad oouuildiuoo u of oijui aouuilduioo u �?uiaianuoa Aq paaulnoluo s► IS ID 0 /0001 3o aouuildwoo (ISdD) I auauiannba21 `umunuiti u su `anaigou llugs Xl!joglnd i?uiouutug goug - IINI sainseaW •3 •(aain�aS uoiluln2ag dul.zanp �uipinozd Xl!joglnV 2uiouulug aqa of sivatiannbai lo.iluoo IIu paljtgs suq Xl!joglnd 2wouuleg oqj `an«oadsiad oauuuuopad loliuo0 u uioij 'a•►) paiunluna aouutuippod lo.iJuoa sIi anuq aou llugs ooiAioS uoiluln2ag dul.ianp 2uin10031 Xl!ioglnd 2uiouulug Cud •bg - sfuilioS swig huanbaij pou►gwoa puu gDV pauigwoo oqj jo soilsilolmjugo atp Sum (ZSdD .io Z plupuuls a0uuuuopod IoxluoD `'a•i) ZX luauiazmb3N puu (ISdD .io I p.iupumS aauuuuopOd IoaluoD `'a'i) IN Iuauiaimbag ajunluna hugs 001niaS uoijulnSag dulzanp i?utpinoid fl►iogand Ruiouulug goug '£2i 's2uijj3S suig Amonboig tinuiiuiui 31ql3o ions aqI oa Iunbo si sigl `sutq alqu►.zun ql!m staid Xl!ioglnd 2upuulug .io3 •uo►Iaauuooialul anijoadsai oql ui sward �plogind Suiouulug aqa 3o s2uilloS suig Xouonboij aql 3o tins aqa si sg puu `uopoauuoonjul uu uigaim uaiy �I!joglnd Suiouulug �10Aa JOJ OWES aqI S1'0 `punoq aq,l, 'JUO uan12 u 19no aauutuopad Xouanb3i3 uo posuq Jong Xouonbaid 05LI10nu alnuiw -ual3o aniun (SWN) a.iunbs -maw-loos pajoBlul oqj si II •punoq Aouonbojj p3aa2.iul aqj wo.r3 pani.iap Iuulsuoo u si 01 3 (woi - )( s ot —)r ol =3s9*t =o1-1 :o.iagm 0'- 15; ( 1 33 V) """ 'DA V aouewaOIaad 104u03 6u!3ueleg JGMOd !eaa — 0-L00-jVS)jb piepue4S I1agl1ea ue )lseld Alaskan Railbelt Standard AKBAL -001 -0 — Real Power Balancing Control Performance sampling cycles in clock- minute clock- minute n sampling cycles in clock- minute The Balancing Authority's clock- minute compliance factor (CF) becomes: _ [( ACE C F clock- minute _ I OB clock- minute clock- minute Normally, sixty (60) clock- minute averages of the reporting Balancing Authority's ACE and of the respective Interconnection's Frequency Error will be used to compute the respective hourly average compliance parameter. _ I CF clock- minute CF clock -hour n clock- minute samples in hour The reporting Balancing Authority shall be able to recalculate and store each of the respective clock -hour averages (CF clock -hour average- month) as well as the respective number of samples for each of the twenty -four (24) hours (one for each clock -hour, i.e., hour - ending (HE) 0100, HE 0200, ..., HE 2400). I [(CFclock -hour )( minute samples in clock -hour _ days -in -month CF clock -hour average -month n one- minute samples in clock -hour days -in month [( -hour average -month )( minute samples in clock -hour averages A _ hours -in -day CF month J n one- minute samples in clock -hour averages hours -in day The 12 -month compliance factor becomes: 12 ( -i )( minute samples in month ) —i CF l2 -month �j [ minute samples in month) -i i =1 In order to ensure that the average ACE and Frequency Deviation calculated for any one- minute interval is representative of that one - minute interval, it is necessary that at least 50% of both ACE and Frequency Deviation samples during that one - minute interval be present. Should a sustained interruption in the recording of ACE or Frequency Deviation due to loss of telemetering or computer unavailability result in a one - minute interval not containing at least 50% of samples of both ACE and Frequency Deviation, that one - minute interval shall be excluded from the calculation of CPS 1. M2. Each Balancing Authority shall achieve, as a minimum, Requirement R2 (CPS2) compliance of 90 %. CPS2 relates to a bound on the ten- minute average of ACE. A compliance percentage is calculated as follows: 3 of 7 Effective Date: TBD Lob a81 :alep an1;oa143 •sutg huanbai3 92VIDnu alnuiw -auo `sutq alqut .Iun 2uisn 3t `puu `long Souonbaz3 a2LMnu aanutm -auo `('gDV) gDd 32uJanu alnutm -auo jo sanlun agl poind gjuom -ZI 2 utlloi u lo3 utuaa.z Ilugs Ai!.jogand gutouulug gong •panlosa.z AIluuuo3 st uoilsanb oql Iplun pollod uotauaaaz luuuou oqj puoAaq panes aq of on uaup aqj `ujup oql ftpru2oj pastuj uaaq suq juq; uoilsanb u ssa.zppu 01 matna.1 u 2uioRiopun a.m uaid Sl!joq;nd 2mouulug u Joj ujup ZSdD puu I SdD aqa 3I •pot.zad juaX -auo u Isual ju joj uuo3 oiuoiloolo ui pautuaaa aq of on (0 00 luowgou;jd) ZSdD puu ISdD3o uopulnoluo oqj sijoddns jugp u ;up aqs u0nualau Inca '£'I •gluom .iupualuo auo au[uajamlasag puu poiaad 2ulaoj!uoW aauugduioa - Z'i wiauz►u0io j(jtltqutla2i luuoi2a -d ,�ltltq!suodsag ,3uilol!uoW aouutldmoD 'i'I ssaaosd 2uiaolpoIN oauugdmoj •I aauu[[dWO3 •a - ZSdD 3o uoijulnoluo aqa mozU palltmo aq llugs Iun.zaaui a;nutm -ua; jugj ` ,(jtltqultunuun joindmoo jo 2uualamalal To ssol of anp alqultunuun aq ulup gDd aql 3o a.iom to 3luq pinogS •172n.z31ut Jugj JOJ luasazd oju soldmus uaup gDd aqj 31uq isuol ju luga Xiuss000u s► I► `Iun.zaaui alnutm -ual Iugl jo 3MI elu3soldw si IunIaaut ajnuiuz - ual ,Cuu jo3 palulnoluo gDv a2?uJanu oql lugs ;)jnsuo of jopio uI - gDd jo 5uipj000l aqa ui uotldn uaaut pouiulsns u s► uoiltpuoo siq L - gluom .zad suoijujotn puu gluom .zad spoilod Iulol 3o uoilulnoluo luuuou aqa aoudwi ,Cum goigm osizu Xum U011 IL d - Allutof passnosip aq asnm `wojongi `gluom i3d suoi;uloin puu gluom iad spotjad Iuaoa 3o uotlulnoluo oqj •gluom nd suolaulotA Jtmtl lltm gluom .gad spouad luaol I!wil jugs siolou3 amus otp `poil;)d am11 a1arostp u .nano pa2u13nu oq gDV juq; sa.ztnbai ZSdD aoutS •Z luamaltnbag ui paugop st 01- •gluom aqa l o3 spotjad alqultunuun puu suotJulotn jo i3gmnu Iuaol oql lzodai Ilugs Al!loglnd futouulug gong salnunu -oj ui saldwes 01 3t I = sainu!w -oi u! saldmes OT7 P0= sajnutm- uaj- )loojo uotlulotA - soldmus ptlun 3o iagmnu oqj Aq paptntp p0113d alnutm - ual- loolo u utgltm saldmus gDd ptlun 3o mns oqj st salnutm- uaa -Noolo gDd •oig popaaoxa salnutm- ual- 3loolo g3V juga spoijad jo j;)gmnu oql jo junoo u wu q;uow iad suo►Julotn aqZ ( q o[qujieAUUn – q„ uoWspot.zad juTos) 001 'pu°`usuoIWIOIA – T = ZSdD GOUBWJoluad 10 6 u!auuIUS JGMO IeaH — 0- L00 pjBpusiS I!agl!BU uu )19eld Alaskan Railbelt Standard AKBAL -001 -0 — Real Power Balancing Control Performance 1.4. Additional Compliance Information None. 2. Levels of Non - Compliance — CPS1 2.1. Level 1: The Balancing Authority Area's value of CPS is less than 100% but greater than or equal to 95 %. 2.2. Level 2: The Balancing Authority Area's value of CPS is less than 95% but greater than or equal to 90 %. 2.3. Level 3: The Balancing Authority Area's value of CPS is less than 90% but greater than or equal to 85 %. 2.4. Level 4: The Balancing Authority Area's value of CPS I is less than 85 %. 3. Levels of Non - Compliance — CPS2 3.1. Level 1: The Balancing Authority Area's value of CPS2 is less than 90% but greater than or equal to 85 %. 3.2. Level 2: The Balancing Authority Area's value of CPS2 is less than 85% but greater than or equal to 80 %. 3.3. Level 3: The Balancing Authority Area's value of CPS2 is less than 80% but greater than or equal to 75 %. 3.4. Level 4: The Balancing Authority Area's value of CPS2 is less than 75 %. 5 of 7 Effective Date: TBD E. Regional Differences Version History L;o9 asi mea anl;oeia •poi.tad ftliodai aql io3 ZSdD 2uiluinoluo m pasn spotiad 'ZSdD 2uilulnoluo ui pasn moq s alquliunuun olnuiut -0I 3o iaqumu ail mulag lad spot.tad olnunu - ual alquliunuun 3o 1;)qumN n sanlun Xouonbog a2u.tanu alnuiwt -I ail uiula2I •SutuaS swig Xouanb;)lj "d wilulnolua tuntutuau aql jo tuns aql of lunbo si sitp `sutq , (sanlun 009`SZS) anlun alquuun glim suiaasXS .to3 'uoiloauuooialul !g smq tunutiutwz alnmwt -I aql uiula2I vojluinoluo antloodsoi ail ut suazV Xliaoglnd ZSdD ag1 ui pasn sg 3o anlun aqa upjmd 5uiouulug ail 3o suig k)uanba.tq 3o wins aqL sg voilulnoluo TON ZSdD aq1 ut pasn !g Jo anlun aq1 uiulag Xilioglnd Ouiouulug aql jo suig Xouanbai3 aqZ !g wiloaumu mul uu uiglim ua.ty - uoiluinoluo Xlt.togln`d 2uiouulug goua io3 awtus aq1 si 11 13 ZSdD ut pasn 013 jo aniun aql uiula?I •punoq Xouanba.i aq1 WOJJ pani.tap luul suoo y 01 3 •01- uugl ialuaa2 moilulnoluo st salnuim -ual -polo gDd 3o aniun alnlosqu ZSdD ui pasn A 3o sanlun ail uiula - d agl goiim ui .moq .tad sluoppm jo .tagwtnN A s;uawaalnbaa uol;ua ;aa uol;dliosaa diva ZSd3 •(sanlu^ 009`SZS) sanlun Xouanbag a2u.tanu alnunu -I ail uiulag wilowumialul oql .to3 Xouanbai palnpapS s •(santu^ 009`SZS) sanlun Xouonbog a2u.tanu alnuiwt -I ail uiula2I - .0uanbai patnsuam lunlou aqZ "d wilulnolua •LION I SdD aql ui pasn !g jo (s)anlun atp uiula2I rjpoglnV 2uiouulug ag13o suig buonbat3 aqZ !g •(sanlu^ 009`SZS) gDd 3o sanlun a2u.tanu alnup -I atp uiulo - d •gDd 3o aft'.tanu alnuim- joolo aq L !HDV •uotloauuoo.taluI aqa ut uaad �lizotpnd 2uiouulug goua lo3 atuus aql si .taqumu sigZ •punoq •uotlulnoluo I SdD ui pasn 1 3 3o onlun aql u1721a2I buanbog palag ml aql woij pani.tap luulsuoo d 13 s ;uawaalnbad uol ;ua;aa uol;dlaosaa v1v0 LSd3 la;laQ ZSd:) Pula ISda 0 ;uatugae;;V aouewao:aad 10a ;u03 6u!oueIBS JGMOd isaa — 0-L00-1v9)IV piepusIS llagl!aa UB)ISely Alaskan Railbelt Standard AKBAL -001 -0 — Real Power Balanci Power System Disturbances and Contingency Response Chapter 3 Spinning Reserve (X% of Contingency Reserve) Contingency Reserve Operating Non - spinning (supplemental) Reserve reserve Real -time total I I guncraun Regulating Reserve fpIIgwin&the mosI Native Load severe single plus confirrgency Capacity Sales Figure 4. Operating Reserve 56 Control Performance 7 of 7 Effective Date: TBD Alaska Standard AKBAL -002 -0 — Disturbance Control Performance Introduction 1. Title: Disturbance Control Performance 2. Number: AKBAL -002 -0 3. Purpose: The purpose of the Disturbance Control Standard (DCS) is to ensure the Balancing Authority is able to utilize its Contingency Reserve to balance resources and demand and return Interconnection frequency within defined limits following a Reportable Disturbance. Because generator failures are far more common than significant losses of load and because Contingency Reserve activation does not typically apply to the loss of load, the application of DCS is limited to the loss of supply and does not apply to the loss of load. 4. Applicability: 4.1. Balancing Authorities 4.2. Reserve Sharing Groups (Balancing Authorities may meet the requirements of Standard 002 through participation in a Reserve Sharing Group.) 4.3. Regional Reliability Organizations 5. Effective Date: B. Requirements Rl. Each Balancing Authority shall have access to and/or operate Contingency Reserve to respond to Disturbances. Contingency Reserve may be supplied from generation, energy storage systems, loadshed, controllable load resources, other devices, or coordinated adjustments to Interchange Schedules. R1.1. A Balancing Authority may elect to fulfill its Contingency Reserve obligations by participating as a member of a Reserve Sharing Group. In such cases, the Reserve Sharing Group shall have the same responsibilities and obligations as each Balancing Authority with respect to monitoring and meeting the requirements of Standard BAL- 002. R2. Each Regional Reliability Organization, sub - Regional Reliability Organization or Reserve Sharing Group shall specify its Contingency Reserve policies, including: R2.1. The minimum reserve requirement for the group, as determined by coordinated Railbelt UP loadshed/spinning reserve /droop coordination study R2.2. Its allocation among members, as defined in the Reserve Policy, and as modified by coordinated Railbelt OF loadshed/spinning reserve /droop coordination studies. R2.3. The permissible mix of Operating Reserve — Spinning and Operating Reserve — Supplemental that may be included in Contingency Reserve. R2.4. The procedure for applying Contingency Reserve in practice including recommendations on geographic dispersion. R2.5. The limitations, if any, upon the amount of interruptible load that may be included. R2.6. The same portion of resource capacity (e.g. reserves from jointly owned generation) shall not be counted more than once as Contingency Reserve by multiple Balancing Authorities. 1 of 7 Effective Date: TBD L io Z Gel :91ea ani;aaH3 sainseew - a •aalltwwo3 Iuowo2uuLW atualul aql Xq panoiddu sis,Ciuuu uo pasuq uotloauuoo.Ialul aql jo slaRIUI Xltltqutiaa aqa Itns jallaq of palsnfpu aq , uw pound sigl •solnutw 06 st pound uopu.IOlsag an.zasa -i ,Cow2uiluoD Iinujap aqZ 'Z'92I 'pound ,S.Ianooag aouuginlstQ aql 3o pun aqa lu sui2oq pot.Iad uotlu.IOlsag an.Iasa2i ,Coua ,3utluoD aqI '1'9H 'u011oauuoo.Ialul slt JO3 pot.Iad uotluaolsag an.IasaZl ,Coua2utluoD aqa utgltm san.Iasag ,toua2utlUOD slt aiolsat SIIn3 Bugs dno.iD 2?uijugS an.tasag lO , I!ioglnd 2 utouutug V '9H •potJad fJOAooag oouugmistQ aqa uigltm puu `paluawaidwi (Iln3 uaaq anuq i?ul.zugs an.Iasaz of polulaa (s)o�uugo ainpogos aqa .Ial3u uot.IaluD ,Uanooag aouugjnlstQ aql loom Isnw ( slt jo) qDV s,.iogwaw u `oouutldwoo ui oq oZ •san.Iasaa 3O uolluntlou aqa of asuodsa.I uI gDV s,logwow goug smatnat dno.iD 2uttugS an.zasag aqZ 'Z'SH .to •pound ,C.Ianooag aouuginlstQ agI uigltm puu `paluawaidwi XIIn3 uaaq anuq 2uttugs an.Iasa.I of polula.I (s)a5uugo alnpagos agI ioiju uotlaluD b;)Ao3321 aouuq.tnlstQ aqa laaw Isnw (Iuaiuntnbn slt jo) gDV dnot2 aqa `aouutidwoo ui oq ojL •SDQ aqa of aouutldwoo saluIIsuowap puu (Iualuntnba lo) gDV dno.t5 smatna.I dnoj[) 2uilugS an.Iasag aqZ 'i'SH :spoglow oml i?utmollo3 otp 3o .Iaglta 4q paluilsuowap aq Xuw aouutidwoD ( futouulug ol2uis u su ltoda.i Ilugs .Iagwow Iugl uagl `dnoio 2uijugS an.Iasag aqI jo s.Iagwaw .Iaglo wo.13 uotlunt)ou anJasal JO3 tiuo lou saop Inq aouuginlstQ alquvodag u paouauadxa suq .tagwaw dnoj2 u ii) •s iogwaw dnoif .taglo 31ow 10 auo wo.13 san.Iasag 4oua .2utluoD 3O uotluntlou aqa .to3 siluo puu aouugtnlst(j alqul.Iodag u paouoiIadxa suq jogwaw dnoji? u ianauagm uotltpuoo aouuq.mistQ aiquvodag u ui pa.Iaptsuoo ag Bugs dnoiD i?uijugS an .Iasa2l d - S:)Q aqa gltm ,Cldwoo Bugs dno.ID 2utjugS an.tasa2I goug 'SH •aalltwwoD luawaiuuieW atliolul aqa Xq panoiddu sis,Cluuu uo postq uolloauuomolul uu 3o spaau aqI Itns .talloq of palsnfpu oq ,Cuw pound siq.L - aouugtnlstQ aiquytoda-d u 3o jiuls aql .Tabu solnutw SI st pot.zad ,C.Ianooag aouuginlstQ Ilnu3ap aqZ 'Z'b2I •onlun aouuginistQ -oid slt of gDV uunlai llugs Alt.Ioglnd Sutouulug aqa `aouugtnlstQ aql of .loud 1sn f sonlun aDV iutltut anllu5au IOJ •oiaz of Iunba JO antiisod sum aouugtnlstQ olqul.zodag oql of .load Isnf gDV sat 3t oaaz of gDV sli u.mlai liugs XlttoglnV I2uiouulug d '1'b2I :sI uot.Ialt[j ,C.tanooag aouugmistQ aqZ •soouuq.InlstQ alqultodag jo %001 IN poundbanooag aouuginlstQ agl utgltm uoiIaluD ,C.Ianoo'3H aouuglnlstQ oql laaw llugs dno.io i?uilt nn.Iasag.IO Xlttoglnd 2utouuiug d -V-d - solouafwluoo alSuts a.zanas Isow antloodso.Id Iiagl ouiuualap of s3touo2upwo olqugo.Id .nags `,Cilunuuu uugl ,Ciluanba.13 ssol ou `matna.I hugs sdno g i?u!jugS an.IasO -a puu satlpoglnd i?utouulug IIV 'Xoua2ulluoo al2uts ;DIanas Isow agI Ianoo oI an.IasO -d Xouo3utluoD g3noua Isual 1u ,C.uuo Ijugs dno.zl:) 2uiitgS an.IasaZl .IO ,ClpoglnV Suiouulug aqI `wnwiuiw u sV 'SDQ aql gltm Xidwoo of antasa - Xouo5upuoD luato13jns aluntlou slugs dno.iD i?ut.IugS an.Iasa -I 10 Xl!loglnd futouulug goug '£2I aauewaolPad loalluoa aoueganlsia — o-Zoo- lVI3)Ibt piepue3S e)lseld Alaska Standard AKBAL -002 -0 — Disturbance Control Performance Ml. A Balancing Authority or Reserve Sharing Group shall calculate and report compliance with the Disturbance Control Standard for all Disturbances involving all generating unit trips, transmission line trips, and distribution level disturbances that result in frequency deviation >.2 Hz. Regions may, at their discretion, require a lower reporting threshold. Disturbance Control Standard is measured as the percentage recovery (R). 3 of 7 Effective Date: TBD Lob a91 :a }ea ani;oaJQ OR- Ot'. 0 30V *MW SZ - = dgDd 3o llnsoi u ql!m oouuginas!Q oql jo yids oqi of joi id spuooas S t 10J gDV 30 2u lAulaAU u swosoidai ouil luluozilog oql `moloq uoijujisnip aqa ui (gDV 3o sums t, Isual ju i?u!pnloui puu loud spuooas 09 Puu 0i) oouuglnlsiCl agl3o 1zuls oql ol ioild Isnf poilad aqa 13AO gad 32.913nu aqa uo vHDV jo3 onlun aql asuq llugs dnoig i?u!augS anIasag 10, 11pog;nd 2uiouulug aq jL •.ioi.za aonpoilui ,Cum asuodsoi DDd puu asuodsoi 1OW3no2 aouis gDV u► 32uuga u su poinsuam oq lou pinogs anion ag,L •alq!ssod jump aql of ssol all jo a1!s all it pwnsuam su anion ssO"AkW oql pz000i hugs dnojo 2uijugS 0nJas3 -d 10 ,Cj!J0gjnV 2uiouulug agZ oz I- 001- - 09- D y 30b 09- m 30V 00- � oz- awg ,Jen ooaa ► - -- -- - -- - -- - - - - -- 0 puu .,,w II gDv = "aw Jas U011313Slp sp iu `,tom dnoi() i?uilUgS anlasag 10 Xl!ioglnd Buiouulug d •oouugjnjsiQ oql 2u►mollo3 solnuiw uaaiji3 aqa utglim pajnsuam gDd 3o anion 3tujg32lu mnm!xum oql s! wgDv `gDv aouugjnasip --old aql si dgDV `ssol aqa jo 2uiuui2aq aqa ju painsuam su aouuq.misiCl aqa 3o azis MIS aql si sso - 'MW . oiogm ssa7�� ° 1000 i � `" ' ?I JOV–`0)xuuz – sso'AI� uogl 0 < V gDv 3! ssa7�� °l°00 i * � `"90 d – ' ,YD V `0)xb'uz – "' AIN '?I uagl 0 > d gDv 3! :uoiju.raua2 3o ssol Jog aoueuaao )Jad joaluoa eoueganlsia — o-Zoo- Piepueis emseld 00L 09 09- v30`d 0V- m ry 3:ZD)b 11 oz o BW NanoOea 06 oc oz I- 001- - 09- D y 30b 09- m 30V 00- � oz- awg ,Jen ooaa ► - -- -- - -- - -- - - - - -- 0 puu .,,w II gDv = "aw Jas U011313Slp sp iu `,tom dnoi() i?uilUgS anlasag 10 Xl!ioglnd Buiouulug d •oouugjnjsiQ oql 2u►mollo3 solnuiw uaaiji3 aqa utglim pajnsuam gDd 3o anion 3tujg32lu mnm!xum oql s! wgDv `gDv aouugjnasip --old aql si dgDV `ssol aqa jo 2uiuui2aq aqa ju painsuam su aouuq.misiCl aqa 3o azis MIS aql si sso - 'MW . oiogm ssa7�� ° 1000 i � `" ' ?I JOV–`0)xuuz – sso'AI� uogl 0 < V gDv 3! ssa7�� °l°00 i * � `"90 d – ' ,YD V `0)xb'uz – "' AIN '?I uagl 0 > d gDv 3! :uoiju.raua2 3o ssol Jog aoueuaao )Jad joaluoa eoueganlsia — o-Zoo- Piepueis emseld Alaska Standard AKBAL -002 -0 — Disturbance Control Performance The average percent recovery is the arithmetic average of all the calculated R for Reportable Disturbances during a given quarter. Average percent recovery is similarly calculated for excludable Disturbances. D. Compliance 1. Compliance Monitoring Process Compliance with the DCS shall be measured on a percentage basis as set forth in the measures above. Each Balancing Authority or Reserve Sharing Group shall submit one completed copy of DCS Form, "Alaskan Railbelt Control Performance Standard Survey — All Interconnections" to its Resources Subcommittee Survey Contact no later than the 10th day following the end of the calendar quarter (i.e. April 10th, July 10th, October 10th, January 10th). 1.1. Compliance Monitoring Responsibility Regional Reliability Organization. 1.2. Compliance Monitoring Period and Reset Timeframe Compliance for DCS will be evaluated for each reporting period. Reset is one calendar quarter without a violation. 1.3. Data Retention The data that support the calculation of DCS are to be retained in electronic form for at least a one -year period. If the DCS data for a Reserve Sharing Group and Balancing Area are undergoing a review to address a question that has been raised regarding the data, the data are to be saved beyond the normal retention period until the question is formally resolved. 1.4. Additional Compliance Information Reportable Disturbances — Reportable Disturbances are contingencies involving any generating unit trips, transmission line trips, and distribution level disturbances that result in frequency deviation >.2 Hz. . A Regional Reliability Organization, sub - Regional Reliability Organization or Reserve Sharing Group may optionally reduce this criteria, provided that normal operating characteristics are not being considered or misrepresented as contingencies. Normal operating characteristics are excluded because DCS only measures the recovery from sudden, unanticipated losses of supply - side resources. Simultaneous Contingencies — Multiple Contingencies occurring within one minute or less of each other shall be treated as a single Contingency. If a multiple contingency event occurs within a time span greater than one minute the regional reliability organization will have at its discretion the option to consider it a single contingency. If the combined magnitude of the multiple Contingencies exceeds the most severe single Contingency, the loss shall be reported, but excluded from compliance evaluation. Multiple Contingencies within the Reportable Disturbance Period — Additional Contingencies that occur after one minute of the start of a Reportable Disturbance but before the end of the Disturbance Recovery Period can be excluded from evaluation. The Balancing Authority or Reserve Sharing Group shall determine the DCS compliance of the initial Reportable Disturbance by performing a reasonable 5 of 7 Effective Date: TBD L;o9 asi :a ;ea aAljaaJ;3 •pat3puapt WON saOuaaGUIa Ieuol6aa - 3 ' uugJ ssal si joijunb agJ 100 IWAOX)l l uaond 32u.zanu 3o onluA :Ib Iaea7 •b•Z ' of lunbo jo uugJ joluaiB Jnq 0 !006 uugJ ssal st . ovionb agJ 103 X13A000J J uawad 32WOnu 3o anluA :£ IaAa'I '£'Z 0 !006 01 lunba .zo uugl joluoi2 Jnq 0 1656 uMP ssal si iz)l unb aqa io3 fJQA00W Juoond a2uzanu agJ 3o onluA :Z Iaea7 'Z'Z • of lunba jo uugl ialuaii? Jnq 0 10001 uugJ ssol si jo7ijunb agJ IOJ kIQAOOOI l uoond 35uJanu aql 3o onPA :1 Iae37 'I'Z •Juutldmoo -uou si dnoiD 2utiugS aAJOSO -i 10 /iIpogJnV 8utouujug u uagm li odag pnpuuJS IoiluoD oouuginJstQ XIIQIjunb aqa Xuudw000u llugs uotJuJumnoop uolJtjm aqy •sgluom aanlJ io3 Jt Iddu of onutJuoo Ilim puu `gJuom ftpaaoons agJ 3o ,Cup lsjlj oqj 2utuut23q Juowlsnfpu aouuuuojjad SDQ almidoiddu aqJ �Iddu lltm dnoig i?utjugS aA.zasag .zo fil!loglnV 8utouulug agJ JugJ 2utX31.iaA uotJuJuaumoop uaJJtjm ap!Aoid hugs poioldwoo XIluaow Jsow x3jiunb jupuoluo aq1 ui luutldwoo -uou sum JugJ dnojo 2uijUgS aA.zasag JO ,(I!joglnd ftouulug gouo wog antJuJuasaidoi d aauuijdruoj -uoN 3o siaea-I •Z •umogs oq uuo aAIasa.z buoButJuoo oouldoi of Jiojja gJtu3 poo.8 u puu smow2upoo loud Xq aJunbapuut pazapuaj a.zam saAJOSOI Aou3SuiJuoo aqa 3t Juana oq; io3 aaJJtu woognS swinosag aqJ uioIJ zaAtum u Jsonbai uuo dnoig 8utiugS aAJOSQ -d JO Xl!joglnd 8ui0uulug aqJ `Janamog •uotJunluna aouuildwoo oqJ ut popnlout puu pavodai oq Ilugs pot.zad uotJUJOIS9W aAlasag XOU92upuoJ aqJ jo pua oqJ aiojaq J nq poilod fjan000-j aouuq njstQ aqJ 3o pua aqJ laJ3u in000 JugJ soouugjnJstQ olgtliodo -d Iuuoil!ppV — poiaad uorJgaolsag aA.zasag faua2ui ;uou aqa unll!m saiaua2lupuoa aidpjnN •paun000 Jou satouo2upwo luonbosgns puu puooas oqJ pug paun000 anuq pinom Jugi asuodsoi aqJ 3o uotlmllsa aaueuaaojaad Ioajuo3 9auegan4si(3 — 0-Z00- IV13Nv paspus3S s)lssld Alaska Standard AKBAL -002 -0 — Disturbance Con Performance Version History 7 of 7 Effective Date: TBD Alaska Standard AKBAL -003 -0 — Frequency Response and Bias A. Introduction 1. Title: Frequency Response and Bias 2. Number: AKBAL -003 -0 3. Purpose: This standard provides a consistent method for calculating the Frequency Bias component of ACE. 4. Applicability: 4.1. Balancing Authorities 5. Effective Date: B. Requirements Rl. Each Balancing Authority shall review its Frequency Bias Settings by January 1 of each year and recalculate its setting to reflect any change in the Frequency Response of the Balancing Authority Area. R1.1. The Balancing Authority may change its Frequency Bias Setting, and the method used to determine the setting, whenever any of the factors used to determine the current bias value change. R1.2. Each Balancing Authority shall report its Frequency Bias Setting, and method for determining that setting, to the Intertie Management Committee. R2. Each Balancing Authority shall establish and maintain a Frequency Bias Setting that is as close as practical to, or greater than, the Balancing Authority's Frequency Response. Frequency Bias may be calculated several ways: R2.1. The Balancing Authority may use a fixed Frequency Bias value which is based on a fixed, straight -line function of Tie Line deviation versus Frequency Deviation. The Balancing Authority shall determine the fixed value by observing and averaging the Frequency Response for several Disturbances during on -peak hours. R2.2. The Balancing Authority may use a variable (linear or non - linear) bias value, which is based on a variable function of Tie Line deviation to Frequency Deviation. The Balancing Authority shall determine the variable frequency bias value by analyzing Frequency Response as it varies with factors such as load, generation, governor characteristics, and frequency. R3. Each Balancing Authority shall operate its Automatic Generation Control (AGC) on Tie Line Frequency Bias, unless such operation is adverse to system or Interconnection reliability. R4. Balancing Authorities that use Dynamic Scheduling or Pseudo -ties for jointly owned units shall reflect their respective share of the unit governor droop response in their respective Frequency Bias Setting. R4.1. Fixed schedules for Jointly Owned Units mandate that Balancing Authority (A) that contains the Jointly Owned Unit must incorporate the respective share of the unit governor droop response for any Balancing Authorities that have fixed schedules (B and Q. See the diagram below. 1 of 2 Effective Date: TBD Z ;o Z ael :a ;ea aniloaU3 A.iolslH uolsaaA TOUPuapi auoN seouejema leuol6aa - 3 I Iana-1 eouelldua03 - u0N .a •suotiutnaQ fiouanboij u0113auu0310lul of asuodsoj s,,(I!ioglnd 2uiouulug aqi auiuuaiap of aalltu wOD luauzaquuuw aivalul agi ,Cq io3 polluo uagnn s,�anjns asuodsag Xouonbaij uuojiad hugs Xli.zoglnd 2uiouulug qoug •IW saanseew -3 'aotn. QS uoiluln2ag luluauualddnS 2uiuuopad uogm 2uilloS suig buonboij sii a2uugo lou hugs Xl!joglnd fuiouulug V •pallo.zluoo 2uioq tare aipw agi 3o asuodsal ,Couanb -3ij agi goluw of 2ui -naS sutg Aawnboid slt asuaioul (lugs aoinIaS uoiluln2ag dulaanp i?uiuuo ad si lugl kliiogind guiouuiug d - 9H •ai?uugo ZH I'0 iad non 2uiwoo agl ui Ianal uoilujouai? wnwixuw poiuwilso sit 3o ol, I l sual it si lugs 2uplaS swig Aouonbazg 02Mnu Xlgiuouz u anug hugs puol anpuu an.zas iou op lugi saili.zoginV fuiouulug - I - SM •a2uugo ZH I iod puuuzap Nuod �Ijuo, paiucuilso s,XliaoglnV 2uiouuiug agi 3o °! I isual iu si lugi 5uplos swig ,iouanbaz3 0AMMu ,Clgiuouz u anuq hugs puol anpuu ZA13S lugl sailuoglnd �?uiouulug - gH MD Anulor •5upjaS suig A anboij jiagl u► asuodsai doojp aouaano�? oqi 3o mugs imgl apnloui iou Bugs iiufl paumo t�Iluiof agl uiuiuoo lou op inq (D puu g) alnpagos poxg u anuq lugs sail!ioglnd 2upuulug oqj - Z - tH sole PUB asuo saa ouan aa — 0-£00- )ld PaePueIS e)iselb Alaska Standard AKBAL -004 -0 — Time Error Correction A. Introduction 1. Title: Time Error Correction 2. Number: AKBAL -004 -0 3. Purpose: The purpose of this standard is to ensure that Time Error Corrections are conducted in a manner that does not adversely affect the reliability of the Interconnection. 4. Applicability: 4.1. Reliability Coordinators 4.2. Balancing Authorities 5. Effective Date: B. Requirements R1. Only a Reliability Coordinator shall be eligible to act as Interconnection Time Monitor. A single Reliability Coordinator in each Interconnection shall be designated by the Intertie Management Committee to serve as Interconnection Time Monitor. R2. The Interconnection Time Monitor shall monitor Time Error and shall initiate or terminate corrective action orders in accordance with the Time Error Correction Procedure. R3. Each Balancing Authority, when requested, shall participate in a Time Error Correction by one of the following methods: R3.1. The Balancing Authority shall offset its frequency schedule by 0.02 Hertz, leaving the Frequency Bias Setting normal; or R3.2. The Balancing Authority shall offset its Net Interchange Schedule (MW) by an amount equal to the computed bias contribution during a 0.02 Hertz Frequency Deviation (i.e. 20% of the Frequency Bias Setting). R4. Any Reliability Coordinator in an Interconnection shall have the authority to request the Interconnection Time Monitor to terminate a Time Error Correction in progress, or a scheduled Time Error Correction that has not begun, for reliability considerations. R4.1. Balancing Authorities that have reliability concerns with the execution of a Time Error Correction shall notify their Reliability Coordinator and request the termination of a Time Error Correction in progress. C. Measures Not specified. D. Non - Compliance None E. Regional Differences None identified. Effective Date: TBD 1 of 2 Z 3O Z a81 :a ;ea GA143OU3 Ajo;slH uolsaaA uolIoaJJOO aoaa3 awil — 0-b00- paepusIS B)ISBI r Alaska Standard AKBAL -005 -0 — Automatic Generation Control A. Introduction 1. Title: Automatic Generation Control 2. Number: AKBAL -005 -0 3. Purpose: This standard establishes requirements for Balancing Authority Automatic Generation Control (AGC) necessary to calculate Area Control Error (ACE) and to routinely deploy the Regulating Reserve. The standard also ensures that all facilities and load electrically synchronized to the Interconnection are included within the metered boundary of a Balancing Area so that balancing of resources and demand can be achieved. 4. Applicability: 4.1. Balancing Authorities 4.2. Generator Operators 4.3. Transmission Operators 4.4. Load Serving Entities 5. Effective Date: B. Requirements Rl. All generation, transmission, and load operating within an Interconnection must be included within the metered boundaries of a Balancing Authority Area. 111.1. Each Generator Operator with generation facilities operating in an Interconnection shall ensure that those generation facilities are included within the metered boundaries of a Balancing Authority Area. R1.2. Each Transmission Operator with transmission facilities operating in an Interconnection shall ensure that those transmission facilities are included within the metered boundaries of a Balancing Authority Area. R1.3. Each Load - Serving Entity with load operating in an Interconnection shall ensure that those loads are included within the metered boundaries of a Balancing Authority Area. R2. Each Balancing Authority shall maintain Regulating Reserve that can be controlled by AGC to meet the Control Performance Standard. R3. A Balancing Authority providing Regulation Service shall ensure that adequate metering, communications, and control equipment are employed to prevent such service from becoming a Burden on the Interconnection or other Balancing Authority Areas. R4. A Balancing Authority providing Regulation Service shall notify the Host Balancing Authority for whom it is controlling if it is unable to provide the service, as well as any Intermediate Balancing Authorities. R5. A Balancing Authority receiving Regulation Service shall ensure that backup plans are in place to provide replacement Regulation Service should the supplying Balancing Authority no longer be able to provide this service. R6. The Balancing Authority's AGC shall compare total Net Actual Interchange to total Net Scheduled Interchange plus Frequency Bias obligation to determine the Balancing Authority's ACE. Single Balancing Authorities operating asynchronously may employ alternative ACE Effective Date: TBD 1 of 4 b to Z ael :a ;ea aniI38113 ,3uiouulug oq1 `wnwiuiw u sy •oouutu.rojiod uaru 3o sisAluuu lou3 agl - loiju puu `osuodsar uoilwouai? `aouutu.roj.rad loiluoo jo 2uiloi►uotu alultliou3 of luawdinba 2utprooaz ulup puu uorluluawrulsui aumogIns glim lauuos.rad 3utlurado sli apinozd Iluqs 1C1iaoglnd Suiouulug oq L '1712I •opuw aq uuo sriudw Iilun .rono luawdinba ftuu joj olusuadwoo of uoilunba gDV aqa 3o mol (Hwl) .tuna .ralaw 32uugoaalui aqa asn to (umou)l 3i) lono ut sl 1ug1 gDV 3o (.ralow curl oi.L `•2•a) luauodwoo oql lsnfpu lluqs Xlitoglnd Buiouulug agL luowdinba loiluoo sli 3o Xoumoou agl auiumlop of uoiluziuoigouXs awtl uowwoo gltm siolow .rnoq- llumu2aw oui-I of L 2uisn s3loaga ioua Xl.rnoq umpod Iluqs Xluoglnd 2uiouulug goug '£T2I •puol alowa.r aA.tas of jo sltufl poump XIluiof jo lndlno oql I 3Ailap o soililoglnd ftiouulug azow jo oml uaamloq poluawaldwi are soi L opnasd zo salnpagoS olwuu�G oiogm luawdinbo Sut.ralaw uowwoo llulsui Iluqs soili.roglnd 2uimulug '£'ZIR •soui-I at,L jo sjolli3 5uisuilu -ilud aqa joj 1dooxo `uoissrwsuurl o .roud poiollt3 l ou On aotAJ3S uotluln2ag ioj palltwsuurl aru lugl .ro aouuuuojlz)d Xluoglnd Buiouulug 2upulnoluo loj pazilpin On lugj sluu2is gad puu mo13 jomod agl amsuo Iluqs sarli.roglnd 5 uiouuiug'Z'ZIH •.rnoq gouo 3o pug ag1 powdoi jo pamotuolal si ulup .rnoq- llumui?aw 1ug1 oinsuo Iluqs soilt.ioglnd fuimulug •luawdinba 2ut.ralow f .amid uowwoo i?uisn aoinos uodn- paadu `uowwoo u wojj saluuuwa puu `s.raluao lorluoo gloq of paralawalal si iWilolow AkW aui-I ail, oinsuo lluqs ail u ;)iugs lugj soiliioglnd iuiouulug 'T'ZT?I •uotpulnoluo aDv oql ui sua.zd fwloglnd 2wouulug luooufpd glim smolt curl of L Ilu opnjout llugs ,Cli.zoglnd 2utouulug gong 'ZTH - gDV alulnoluo of sonluA z2uugojalul palnpagoS oql ui `sailtsoglnd 2uiouulug palo33ju uaamloq of poo u puu luoiluopi aq Iluqs goigm `solur dwuz 3o loaga aq1 apnloui Iluqs satlt.roglnd 2uiouulug - IIH •uorlunba gDV aql io3 a2uugo.ralul palnpagoS laN3o uoilulnoluo oql ui salnpagoS oiwuu�Cj Ilu opnloui Iluqs �liioglnd $uiouulug aq.L '01H •puol 10 u0iluaaua2 lutuolui su polopow si 1! 3i uopunbo gad aql woj3 }NII DQAH aql of palujw alnpagoS oRuugoralul oql liwo 01 asoogo Am uotloauuooralul .riagl of Xjsnouolgz)uXsu poloauuoo Xliroglnd fuimulug .raglouu 0 1)Iuil (DQAH)1uauno loa.rip aBulloA ggiq u glim soili.roglnd Buiouulug 'T'6H •uotlunbo g:)V oql joj o2uugo.zalul palnpagoS ]ON 3o uoilulnoluo aql ui soilijoglnd i?utouulug luaoufpd glim salnpagoS a3uugoaalul Ilu apnloui llugs ,Cliaoglnd 2uiouulug oq.L '6H •°!696'663 Y(liiiquiiunu wnwiuiw u apinoid Iluqs uoilullulsui Ilu.rano sign •aornos fauwt.zd aql jo olnliu3 3o uoiloolop uodn alunilou Xlluoiluwolnu lluqs lug! luawdinba 2ul.ra1aw Amonbai3 luopuadopui puu luupunpoj aptnojd Iluqs Xli.ioglnd 2uiouulug goug 'T'SH •spuooas jno3 XlQAa 1 sr:31 1u m000 gDV jo uoilulnoluo puu lo3 uoilisinbou ulup lugs a.insuo Iluqs Xlijoglnd 2uiouulug oql •SH •a5uugoaalul palnpagoS 1aN oql uiuluiuw of uoilunuoO lsnfpu of loiluoo lunuuw asn Iluqs �I!ioglnd 2utouulug aq1 `anilu odoui owooaq suq DqV jl •uoiloouuooralul oq1 jo �liliqutiar oql sloudwi alas .Ianpu uoilujodo gons ssalun Xlsnonuiluoo Df)V olundo Iluqs Xli.roglnd Suimulug oq.L 'LH .ioluuip.zooD Xjq!quilag s1► Xjpou lluqs 1i salnuiw p£ uugl aiow .to3 gDV alulnoluo of alquun si AI!Ioglny ftouulug u jl •lolluoo Xouanbat3 lug (ol poliwil lou 1nq) su gons suoilulnoluo 1531053 uoljeaeuaE) oijewolnd — 0-500- p.iepuBIS e)lSel1'/ Alaska Standard AKBAL -005 -0 — Automatic Generation Control Authority shall provide its operating personnel with real -time values for ACE, Interconnection frequency and Net Actual Interchange with each Adjacent Balancing Authority Area. R15. The Balancing Authority shall provide adequate and reliable backup power supplies and shall periodically test these supplies at the Balancing Authority's control center and other critical locations to ensure continuous operation of AGC and vital data recording equipment during loss of the normal power supply. R16. The Balancing Authority shall sample data at least at the same periodicity with which ACE is calculated. The Balancing Authority shall flag missing or bad data for operator display and archival purposes. The Balancing Authority shall collect coincident data to the greatest practical extent, i.e., ACE, Interconnection frequency, Net Actual Interchange, and other data shall all be sampled at the same time. R17. Each Balancing Authority shall at least annually check and calibrate its time error and frequency devices against a common reference. The Balancing Authority shall adhere to the minimum values for measuring devices as listed below: Device Accuracy Digital frequency transducer < 0.001 Hz MW, MVAR, and voltage transducer <_ 0.25 % of full scale Remote terminal unit < 0.25 % of full scale Potential transformer 5 0.30 % of full scale Current transformer < 0.50 % of full scale C. Measures Not specified. D. Compliance I. Compliance Monitoring Process 1.1. Compliance Monitoring Responsibility Balancing Authorities shall be prepared to supply data to the Intertie Management Committee in the format defined below: 1.1.1. Within one week upon request, Balancing Authorities shall provide the Intertie Management Committee or the Regional Reliability Organization CPS source data in daily CSV files with time stamped one minute averages of: 1) ACE and 2) Frequency Error. 1.1.2. Within one week upon request, Balancing Authorities shall provide the Intertie Management Committee or the Regional Reliability Organization DCS source data in CSV files with time stamped scan rate values for: 1) ACE and 2) Frequency Error for a time period of two minutes prior to thirty minutes after the identified Disturbance. 1.2. Compliance Monitoring Period and Reset Timeframe Not specified. 1.3. Data Retention 1.3.1. Each Balancing Authority shall retain its ACE, actual frequency, Scheduled Frequency, Net Actual Interchange, Net Scheduled Interchange, Tie Line Effective Date: TBD 3of4 btob asi .abed aniIoa143 jru%j #.71„ MVv.7wvjj •paiji;uapi auoN seoueaeliia leuolBou '3 Z iana-I aauet1du103 -uoN 3o siaea -I - Z -pogpods ioN uoUeuiaojul aauvgduio3 ieuo►MppV III •paploxv sum mup ag, uaigm jo3 nimanb �utjlodoj agi 2ulmollo3.00a auo JOJ pauiulol oq liugs elep 3ql -sonlun fJZAOOa1 aouugjn ;sip dno1D $uijugS aniasag jo Kl!jog;nd 2uiouulug alulnoluo oa pasn soldm's Jo/put suugo g:)H agj su llom se aouuganlsi(i olqu:aoda-d goes 3o apmiu2uw agl ;o uoiluaumnoop u►ejai llugs dnoif) 2utjtlgS ansasag JO kl!joganV 2uiouulug gong Tcl •Juax auo lsual jr Jo3 paloolloo si u ;up agl goigm IV 01181 uuos auzus agl It, Iuuzioj luai8ip ut Mcp 2ui,aaS swig Xouanbai,d puu uoiloauoo Iorta s31aux loal u03 uoileaaueE) ollewolnd — 0- 500- lV§ - )Iv paspusjS a )lsely Alaska Standard AKBAL -006 -0 — Inadvertent Interchange A. Introduction 1. Title: Inadvertent Interchange 2. Number: AKBAL -006 -0 3. Purpose: This standard defines a process for monitoring Balancing Authorities to ensure that, over the long term, Balancing Authority Areas do not excessively depend on other Balancing Authority Areas in the Interconnection for meeting their demand or Interchange obligations. 4. Applicability: 4.1. Balancing Authorities. 5. Effective Date TBD B. Requirements R1. Each Balancing Authority shall calculate and record hourly Inadvertent Interchange. R2. Each Balancing Authority shall include all AC tie lines that connect to its Adjacent Balancing Authority Areas in its Inadvertent Interchange account. The Balancing Authority shall take into account interchange served by jointly owned generators. R3. Each Balancing Authority shall ensure all of its Balancing Authority Area interconnection points are equipped with common megawatt -hour meters, with readings provided hourly to the control centers of Adjacent Balancing Authorities. R4. Adjacent Balancing Authority Areas shall operate to a common Net Interchange Schedule and Actual Net Interchange value and shall record these hourly quantities, with like values but opposite sign. Each Balancing Authority shall compute its Inadvertent Interchange based on the following: R4.1. Each Balancing Authority, by the end of the next business day, shall agree with its Adjacent Balancing Authorities to: R4.1.1. The hourly values of Net Interchange Schedule. R4.1.2. The hourly integrated megawatt -hour values of Net Actual Interchange. R4.2. Each Balancing Authority shall use the agreed -to daily and monthly accounting data to compile its monthly accumulated Inadvertent Interchange for the On -Peak and Off - Peak hours of the month. R4.3. A Balancing Authority shall make after - the -fact corrections to the agreed -to daily and monthly accounting data only as needed to reflect actual operating conditions (e.g. a meter being used for control was sending bad data). Changes or corrections based on non- reliability considerations shall not be reflected in the Balancing Authority's Inadvertent Interchange. After - the -fact corrections to scheduled or actual values will not be accepted without agreement of the Adjacent Balancing Authorities. Adjacent Balancing Authorities that cannot mutually agree upon their respective Net Actual Interchange or Net Scheduled Interchange quantities by the 15th calendar day of the following month shall, for the purposes of dispute resolution, submit a report to their respective Regional Reliability Organization Survey Contact. The report shall describe the nature and the cause of the dispute as well as a process for correcting the discrepancy. By mutual agreement with respect to scheduling Bradley lake losses, and if other arrangements have not been made: Losses shall be accumulated as an after the fact scheduled transaction. However losses will not be added to the hourly or accumulated inadvertent. 1 of 3 Effective Date: TBD a91 :a ;ea ani;aa;}3 E io Z Aao;siH uolsaaA saouaaal ;la leuol6aa '3 •juutldwoo -uou I lanai paiapisuoo aq dugs pa;sanbai si uoda.z Bons uagnn `ujup pwinbai aql 5uilliwgns 1ou zo3 uosuai u sailddns .you `IouauoD AQAjnS uoijuziuu2.zp ,Cjiltquijo -d It,uoi5z - d aq; oa poda.z u s;iwgns iagliou Iugl Xli.ioglnVV 5ui3uulug d eouelldwo3 uoN 10 slana-1 •Z Tj •aajjicuwoD juawa3uutW wpolul aqa Xq pat31o3ds st poind awil oinln3 aq; lo3 pajoalloo og hugs sXanzns Sons zo3 ujuQ •aouuuuopad DJd iodoidwi io `suopujado ,3utlnpogos jadoidwi io sa.mltu3 wawdinba of onp (s)jo.ua o2uug3jalul s,Xl!joglnd 2ulmulug aqa ouiumlop of oau!wwoj juawz2uuuW aillalul aqj Xq palsonb;)i su Xan.zns (gjd) Jong afuugzvolul uaiV uu uuopad llugs Xl!joglnd 3uiouulug goug '£'I - spoilad aluad - 330 Put )Iuad -up aqa gloq jo3 `uoilulnwnoou jau luui3 puu `giuow aqj jo3 uoilt,lnwnoou iau `uo mmunoot snotnaid aqa Ist,al ju apnloui hugs sat.rewwns ai?uugo.zajul lua:zanpuul -Z'I •soii!iogind 2uiouulug mipauuaiul tiu puu ,C1poq;nd 2uiouulug XuiS `Xli.zoglnd 2uiout,it,g aojnoS aqj Xq oa pozift jou w3m juga soBuug3 ;ou3- aqj- .iaj3u Xuu apnloui iou Ilt,gs salluwwns asagl •Isonboi uodn aajliwwoD juawaiuuuW ailialul aql oa alquliunu a2uug3.zajul auaIIanpuul 30 Xiuwwns Xlgauow u uiuIuiuw Ilugs Xitioglnd 2uiouulug goug 'I'I ssaaoad 2upolluoW aauvgdtuo3 •I aouelidwoC) -a •pai3ioods ouoN sainseew - 3 asn oinin3 io3 paMasag 'SCI •3311iwwo:) juawa &uuuyv ailuaaul oqj Xq pasTn91 aq Minn pitpuu ;s aqp aopowd sigl 3o osngt paluawnoop 3o Iuana aqj ul •sassol luod -uo 3o lougXt aql ui iuudioiliud ,Cut of uiu2 uual -i?uol apinold o1 agun,3uul sitp 3o lualui aql you si lI 'Z' I - IQi - goo - Iug piupumS u1suld q ;inn oout,pi000u ui snno1 iomod au31zanpuui 3o 2uijun000t aju.znoou ajow R .zo3 apinoid puu Suilun000u 4ildwis oa s► ampuid 2tuly odo luojjno of uopuou!pow stga 3o lualui 3ql - 31up 3inIn3 u ju a2uugo Xuw siq j, - Cup luad 33opluod uo pjupuuls u put sXup asogj uaannlaq awil sign ju uoiiauilsip ou aq llim azagl inq sXup luod jjo on sXupiloq puu s,CupunS ;uqa paziu2o3az si ll •alnpagos jougXud ssol 33luZ Xolpulg u su jalul sinoq St, palulnwnoot 310m Xogl inoq awus aqj ui paam000 sassol aqa goignn ui Vg aql oa p3tunpi aq oa polnpagos aq llim sossorl a ueyaaalul ;uaIJanPeul — 0-900 PaepueIS e)lseid Alaska Standard AKBAL -006 -0 — Inadvertent Interchange 3of3 Effective Date: TBD Alaska Standard AKFAC -001 -0 — Facility Connection Requirements A. Introduction 1. Title: Facility Connection Requirements 2. Number: AKFAC -001 -0 3. Purpose: To avoid adverse impacts on reliability, Transmission Owners must establish facility connection and performance requirements. 4. Applicability: 4.1. Transmission Owner 5. Effective Date: TBD B. Requirements R1. The Transmission Owner shall document, maintain, and publish facility connection requirements that at a minimum meet the Intertie Management Committee's facility connection requirements and ensure compliance with its Reliability Standards and applicable Regional Reliability Organization, subregional, Power Pool, and individual Transmission Owner planning criteria and facility connection requirements. The Transmission Owner's facility connection requirements shall address connection requirements for: R1.1. Generation facilities, 111.2. Transmission facilities, and R1.3. End -user facilities R2. The Transmission Owner's facility connection requirements shall address, but are not limited to, the following items: R2.1. Provide a written summary of its plans to achieve the required system performance as described above throughout the planning horizon: R2.1.1. Procedures for coordinated joint studies of new facilities and their impacts on the interconnected transmission systems. R2.1.2. Procedures for notification of new or modified facilities to others (those responsible for the reliability of the interconnected transmission systems) as soon as feasible. R2.1.3. Voltage level and MW and MVAR capacity or demand at point of connection. R2.1.4. Breaker duty and surge protection. R2.1.5. System protection and coordination. R2.1.6. Metering and telecommunications. R2.1.7. Grounding and safety issues. R2.1.8. Insulation and insulation coordination. R2.1.9. Voltage, Reactive Power, and power factor control. R2.1.10.Power quality impacts. R2.1.11. Equipment Ratings. 1 of 3 Effective Date: E;Oz :a }ea ani;aaI;3 AaoisiH uolsaaA •pai3iluapi auoN 'i saouaaaUla leuolfOU - 3 £ laea-1 aauulldtma -mN 3o slaea-I •Z •auoN uoggucao3ui aauugdmoa IguoijlppV 'b'i •pog!oods auoN UOqua;ag Ing(l '£'i (shp ssouisnq anti) Isonba.i up aluoijaulli psag pug poiaad 2uHojzuoW aauggdwoj •Z•i uoijurtuu2.zp ,�jiliquila -d Iuuotilag :iojiuoW aauuildwoD ,c4Illglsuodsag 2ulao;zuoW aauugdwoj 'i'i ssaaoad 2tujo;luoW aauugduio3 •i eouelld=3 •a '£2I 0 piupuu;S Xjitiquitag ui paluls sluawojinboi oql IIu law 1! iugj aouapina uopoodsm io3 (ioliuoW oomidwoD sli ol) alquliunu a)luw Ilugs .zaump uoissiwsuu.zI aqZ 'J:W Z2I 0 I00 pjupuu ;S X;iliquilag ui paluis sjuawalinboi 1 j law 1! jugj aouaptna uopoadsui ioj (joiiuoW aouuildwoD sli ol) alquliunu 01luw Ilugs ioump uoissiwsuuj L oqZ 'ZW IIf loo-DV_q pjupuujS Xliliquila?I w paluls smomajinbol oqj IIu law ai jugj aouapina umpodsm io3 (joliuoW oomidwoD sli oj) alquliunu 03Iuw llugs h ump uotssiwsuu.zZ aqZ JW sainseaw -o •(sXup ssouisnq aniJ) Isonboi uo aaljiwwoD auawai?uuvW atlaalul aql puu `uoijuziuv2iO ,Cjiliquilag Iuuoi2ma oqi `waisXs uoissiwsuuji aqa 3o siosn oqj of alquliunu sluowaimbal osagl 3o uoijuluawnoop aluw lluqs joump uoissiwsuuljL aqZ - palinbai su siuowaiinbo.z uoilaauuoo )(Iiltou3 slt a1updn puu uiuluiuw llugs aaump uoissiwsuuij, ag,L •£g •suoijipuoo fuimiodo Xoua,'3.zawo put Iuuuou Suilnp soinp000id put, suoiluoiunwwoj•9i ' i'ZH •sapiliou3 mau io Suilsixo jo3 sluowaimbai uoiaoodsul'Si'i'ZH (sa3ujlon puu huanbai3 Iuuuouqu) sonssi luuoi;usad0'fii'I'Z2I •uoIauuipa000 aouuualuiuw'£i'i'ZH saiIiliou3 Jo 5uiziuo.Igmu S'Zi'i'Z'H s}uewejinbeH uoijoemo3 Ai1ljoeq — 0-100-3Vq)IV piepueiS a )lsely Alaska Standard AKFAC -001 -0 — Facility Connection Requirements 3 of 3 Effective Date: Alaska Standard AKFAC -002 -0 — Coordination of Plans for New Facilities A. Introduction 1. Title: Coordination of Plans For New Generation, Transmission, and End -User Facilities 2. Number: AKFAC -002 -0 3. Purpose: To avoid adverse impacts on reliability, Generator Owners and Transmission Owners and electricity end -users must meet facility connection and performance requirements. 4. Applicability: 4.1. Generator Owner 4.2. Transmission Owner 4.3. Distribution Provider 4.4. Load - Serving Entity 4.5. Transmission Planner 4.6. Planning Authority 5. Effective Date: B. Requirements Rl. The Generator Owner, Transmission Owner, Distribution Provider, and Load - Serving Entity seeking to integrate generation facilities, transmission facilities, and electricity end -user facilities shall each coordinate and cooperate on its assessments with its Transmission Planner and Planning Authority. The assessment shall include: 111.1. Evaluation of the reliability impact of the new facilities and their connections on the interconnected transmission systems. R1.2. Ensurance of compliance with the Intertie Management Committee's Reliability Standards and applicable Regional, subregional, Power Pool, and individual system planning criteria and facility connection requirements. R1.3. Evidence that the parties involved in the assessment have coordinated and cooperated on the assessment of the reliability impacts of new facilities on the interconnected transmission systems. While these studies may be performed independently, the results shall be jointly evaluated and coordinated by the entities involved. R1.4. Evidence that the assessment included steady- state, short- circuit, and dynamics studies as necessary to evaluate system performance.. R1.5. Documentation that the assessment included study assumptions, system performance, alternatives considered, and jointly coordinated recommendations. R2. The Planning Authority, Transmission Planner, Generator Owner, Transmission Owner, Load - Serving Entity, and Distribution Provider shall each retain its documentation (of its evaluation of the reliability impact of the new facilities and their connections on the interconnected transmission systems) for three years and shall provide the documentation to the Regional Reliability Organization(s) and the Intertie Management Committee on request (within 30 calendar days). Effective Date: TBD 1 of 2 Z ;o Z a81 :a ;ea an110043 /Go;sIH uolsaaA 'pat3tivapt auoN •I saauaaa )4 10 leUO1Bad - 3 •paptnotd iou aiam so ptltou3 mau 3o siouduit oqi 3o sivautssossV :t, laearj •t,•Z 'alguotlddu ION :£ laea -I •£•Z - olguotlddu ION :Z Tana -1 •Z•Z i2I Z00 RrepuuiS , �itltqutla2i3o sivauiaitnbai olom so ouo ui aialdutoom wom inq `paptnoid atom satitlTou3 mau jo siouduit oq; jo sivauissossV :I laearj •I•Z aauul1duiO3-uoN 3o slaea7 •Z auoN uouucuaojui aaut-gdutoj luuoi�lppV •ib•i •s.n ox aaaq,l, :suiaisxs uotssTmsuu.ti paioauuoo.Taiut oqi uo suotioauuoo .Ttogi puu satitltou3 mau jo sioudutt Xitltqutlaa oqi 3o ivauissossu oqi jo aouaptng uopua;ag e;BQ •£•I •(sXup .Tupualuo 0£ utgitm) isonba.i up auivajauilZ;asag puu poiaad 2ulao;luoW aauugduioj •Z•I •p" :.ioituow oouutlduioD Sj!j!glsuodsag 2ulaojiuoW oauegduio3 •I•I ssaaoad 2uiao;nio" aauLgduioj •I e3uelldwo3 •a 'ZH 0 p.TupuuiS ,(itltqutlo,d gitm oouup.i000u ui soppo .iagio of paptnold puu poutuiaa si suiais)Cs uoisslwsu - eil paioauuooaaiut oqi uo suotioauuoo .TTagi puu satitltou3 mau jo sioudwi fiitltquilal aqi Jo ivauissassu sit 3o aauaptna anuq gouo llugs 13ptnoJd uotingt.iistQ puu `KI!Iug 2ulAIDS -puo-I `iaump uotsstutsuu.zZ `.Taump .ioiu.iauaq `.Tauuuld uotsstuisuu.il `Xit.ioginV 3utuuuld aqs •ZN i 0 piupuuiS �itliqutlag ui scuait llu ssaippu llugs satitltouj mau 3o sioudun Xitltqutla.i aqi jo ivauissossu sit 3o uotiuivauinoop s,.Taptnoid uotingt.iist(l puu `Aitiug Sutn.iaS -puoZ `.iaump uotsstuisuu.il, `.zaumo .zoiu.iauaq `aauuuld uotsstuisuajj `�it.ioginV 2utuuuld oqZ •IK seinseew - 3 s MO J0 sue ld 10 uoljeulpa003 — 0-Z00-3V=lNV paepuelS e)Iseld Alaskan Railbelt Standard AKINT -001 -0 — Interchange Information A. Introduction 1. Title: Interchange Information 2. Number: INT -001 -0 3. Purpose: Scheduled interchange must be coordinated between Balancing Authorities to prevent frequency deviations and accumulations of inadvertent interchange, and prevent exceeding mutually established transfer limits. 4. Applicability: 4.1. Purchase - Selling Entities. 4.2. Balancing Authorities. 5. Effective Date: B. Requirements Rl. Interchange shall be scheduled only between Balancing Authorities having directly connecting facilities in service unless there is a contract or mutual agreement with another Balancing Authority to provide connecting facilities. R2. Interchange schedules or schedule changes shall not cause any other system to violate established reliability criteria. R2.1. When Balancing Authorities are connected so that parallel flows present reliability issues, the combinations of Balancing Authorities shall develop multi- control area interchange monitoring techniques and pre - determined corrective actions to mitigate or alleviate potential or actual transmission system overloads. R2.2. Transfer limits shall be reevaluated and interchange schedules adjusted as soon as practicable if transmission facilities become overloaded or are out of service, or when changes are made to the bulk system which can affect these limits. R3. The maximum net scheduled interchange between two Balancing Authorities shall not exceed the lesser of two values: R3.1. The total capacity of the transmission facilities in service between the two Balancing Authorities owned by them or available to them under specific arrangements, contract, or mutual agreements, or R3.2. The mutually established First Contingency Total Transfer capability of the two control areas considering other transmission facilities available to them under specific arrangements. R4. The sending, contract intermediary, and receiving Balancing Authorities that are parties to an interchange transaction shall agree on the following: R4.1. The schedule's magnitude, starting and ending times. R4.2. The schedule's magnitude and rate of change shall be equal and opposite and not exceed the ability of the systems to effect the change. R4.3. The scheduled generation in one Balancing Authority that is delivered to another Balancing Authority must be scheduled with all intermediate Balancing Authorities unless there is a contract or mutual agreement among the sending, contract intermediary, and receiving Balancing Authorities to do otherwise. Adopted by the Intertie Management Committee: Page 1 of 2 Effective Date: :area 9nl;oaJ43 3 1 Z 068d:88ulwwoO;uawa6euew alpalul all Aq paldopb AjolsiH uoisaaA 'Z 'T seouaaa leuoi6aa -a I iana-j eoueildwo3 - 3 •tiressaaau sowoaaq uoilanpoi atnpagas e 3i pasn aq Ilpm gaigm `saii!ioi zd ainpagas auiuualapald hugs saivud panionut aqa puL 32uega.zalui painpagas agj ui panionui aou sail!ioglnd ButauRiug Iaglo uo laaJJa asIanpL' uL anuq Xvw gaigm aain10s Jo ino saiaiiiav3 puL sajnpagas 02uuqumui uo uoiiLuuojui owuituassip of saanpaaoid doianap IlUgS saili.zoglnd 2uiouuiug - gH uol}ewJoiGul aaue40aa3ul — 0-L00-1NIIV paapuelS 3lagilaa ue )IselV Interconnection Standards_for Railbelt Generation Table of Contents Section I ntroduction ......................................... ............................... 4 110 How the Standards are Organized .................................. ..............................4 120 Operational Policy for interconnection to the Interconnected Railbelt Electrical System .............................................. ..............................5 140 Parallel Operation .......................................................... ..............................6 150 Islanding .................................................................... ............................... 6 Section 2.• Interconnection Process and Application ProcedureS ......... 7 210 Objectives ...................................................................... ..............................7 220 Authority ................................................... ............................... ........9 230 Process Review and Responsibilities ............................. ..............................9 Section 3.• Interconnected Operating ReQUI REMENTS ........................ 15 310 Approval for Parallel Operation .................................... .............................15 320 Discontinuance of Parallel Operation ........................... .............................15 330 Islanded Operation ........................................................ .............................16 340 Voltage Requirements ................................................... .............................16 341 Voltage Levels .................................................. .............................16 342 Voltage Fluctuations ......................................... .............................17 343 Voltage Regulation and Reactive Power Requirements ................17 350 Generator Droop Requirements .................................... .............................18 351 Generator Inertial Response Requirements .................. .............................18 352 Operating (Spinning) Reserve Requirements ............... .............................18 353 Non - Operating (Non - Spinning) Reserve Requirements ............................18 360 Harmonics ..................................................................... .............................18 370 Power Factor Requirements .......................................... .............................19 380 Coordination with the Railbelt Protective System ........ .............................19 390 Maintenance & Testing ................................................. .............................20 391 Interconnection Equipment Maintenance ......... .............................20 392 Protective Systems Functional Testing ............. .............................20 Section 4.• General Requirements ........................ ............................... 23 410 Design Requirements .................................................... .............................23 411 Design Documentation and Information ........... .............................23 412 Protective Systems and Equipment ................... .............................24 413 Railbelt System Modifications .......................... .............................25 Page 1 Z 32nd , ujuwwnS sluauzazmbag luauzdinbg uoiloouuoonjul so.in i3 a8 saignZ S aigL.L ep .................................................................. .............................4 10960 /0 / ,•••••••••••••••••••••••••••••• uo/;oauuooja;u/joj uoi;eoi/ddy/eui,4 •8 KipuaddV op ............................. uoi;oauuooja ;u/ joj uoi;eoi/ddd /ei; /u/ •d xipuadd y 6£ .................. ............................... ............................wig �3a'I Xii�uoilualul Ogg 6E"*"****"""*"**'*"***"*'*** ............................ suoiI�otunuRUO:) uIrQ pup aotoA Otis Z£""""""""' ............................... sluauzaiinbag luauzdinbg u0113auu03zalul 0£S T £ ........................ soijtiiqudu3 Supsas misfis ioaluo0 v uoijoajoad SZS OE"****"* ......................................... luotudinbg ioaluoD zanmod uodxg LZS 0£ ....................................... .......................2uiS2o-I r1r(I Imoiltnd0 9ZS OE**** .... *** ........... sluowomnbag OupoituoW Pun 940uza131 SZS 6Z...................... ............................... saoinaQ iozluo:) puE u 01 1 30 1 01 d tZS 6Z"***"*********'*"**"*******"**""****"**" wig l3at xtpuoilualul £ZS LZ ................ ............................... aotna(I JoauuoosiQ uoiIoauuooJajul ZZS .... ............ sluauza.zmbag sui.zalaw i ZS LZ .............................. ............................... luauzdmbg paimbag Io nnain.ian0 OZS ......................... uoilonpoaiuT 0 i S L Z••••••••••••••• •••••••••••s ;uawegnb9j ;uawa!mb3 uoi ;oauuooja ;u/ S uoi ;oag 9Z ........................................... ............................... suzaJs,iS .zaIIanuoD J3M0d Otte ..........siolmQua0 uoilonpul 0£9Z ............................ t SZ.............................. ............................... s3SL,110A uzalsxS prepc101S TZti ............. wolsfS ji3giip2i-- uoijtuuojuj usisaQ OZb uoilviauaf) ilaqllv2f Jof sprvpuvlsuopaauuoa.ra ;ul Interconnection Standards_for Railbelt Generation Figure 1: Typical Secondary System Interconnection - Facilities ............................65 Figure 2: Typical Primary System Interconnection - Facilities ... .............................66 These Standards are subject to revision, at any time, at the discretion of the Intertie Management Committee (as defined in the Railbelt Operating Standards). This document is not intended to be a design specification. Page 3 t, 32nd •u0110311u0313ju? ILzaua2 zoj sgu?llas uouloajozd pur jwwd?nba paztnbaz aq� Jo ma?nzano IL t suuuluoo s ;uawaiinbad ;uawdlnbg uoziaauuoara ;uj :S uO S •sauj ?I ?3'33 uo?juzaua 2?uu;oauuoozaju? 2u?pzr2az uouluuuoju? uB ?sap put sluauuaz?nbaz u21s3p Su?pnlou? `w3jsfjs Iuo?zioalg Ilogpmd paioauuoozalul aT ql ?m Oupoouuoozalul zoj slumminbaz Iuzauao aqj ssazppu sluawaiinba2[ 1vrauag :t uoYaaS •uualsf,S luoujoalg Ilogpi2I pmouuoozalul aql glum I3111uzud u? 2uplendo Xi ?I ?oq3 uo?lt Xuu of XIddu 11up sluauuazmbaz puu `s, ?uu ?I utzaj ?zo luuopizado aqi suiumo vivalljj 8uzlvradp pa;aauuoajaluj :£ uo. •sp upuTaIS asogj of soo?puoddu su popnloui azu uoiloauuoozalul zo3 suo?lro?Iddd •p3u?u1go si uo?lvzado pmouuoozalu? zoo uo ?liuz ?zoqpnie (p pue zaumo uo?ss?wsuuzi, lo/put fj ?zogpnd Su?ouL'lug aql ?m paligu?pz000 are spofozd uouIoauuoozaIu? (o `p3ssassu axle sluauuaz?nbaz uoujoauuoozaju? og!oads (g poss000id axle suoiluo?Iddr (e moq jo ou?puviszapun uu ql ?m juvo?Iddd zip sap?nozd uoiloas s?qi `so?ls?zajonzugo sl? ui onb?un ag II ?m lusodozd goua al ?qM •paluauualdim put pou?uuualap on uouloauuoozaju? algL pule ajus zo3 sluauiaz ?nbaz out ?oads atll go?gm gSnozgl ssaoozd dais -Xg -dais aip jo uo?ld?zosop L , ql ?m smollo3 sainpaaoj r uopvagTddV pun ssaaoid uo . qaauuoa raluj :Z uolaas •suualsxs u011mau32 Suiltuodo- lalluzud puu Su?puels? Xnjodwoi grog zoj sops?zalouzugo PUB sldaouoo Iruouligzado `uoirumiu? XQj suiVIuoo osllc u01133s s?qZ uia�sXs leo ?zloalg Magi ?u2I pajoauuoozajul oq, ql ?m uopoouuoozajui zoj sliesodozd Buipm2az Xoilod s,aau?unuoD IuauuaIBUUU I a?lualul oql Jo ma?nzano Ur sap ?nozd uo . qanpo4uj :I uopaaS •juaumoop alaldwoo aqi uugl ?m uo?loos goiga 3o fCzuuuuuns L sluosazd uopoas s?qp `uoildauuo.qlalul uollmdudD dof sp vpuviS s,ilagl!ud aqj jo snooj puu odoos aql piuLIszapun zallag of zapzo ul •uuaIsXS luo?zloolg ilagl ?t,2I paioouuoozalul OT ql ?m u -03 put' uo?luzau02 dons 2upoouu00zaju? zo3 szalow7and Suiltzado lumug331 puu sluauuazmbaz ItzauoS oql Mlluoo spzepumS Jo has s ?qZ goILds ?p o?uuou000 zo fj ?I?gr ?Iaz jo sasodznd otp zoj uopoauuoozalul 1Iagt ?u2I aqj qp ?m uopoauuoo IUo1113310 Su ?u?73Ju ?m al ?qm `spUol IL'uzaIu? hoot 01 .10 (,,WOISXS oqj,,, zo ,PijD oql„ `,,wolsAS luouloolg Magi ?�2I„ `«�IagI ?�2i aqL„ `«uopoauuoozalul �Iagt ?�2I „) P ?z2 uualsftS IVo?z1 Itagt ?md porauuoozalul aql 01 alts -az zoJ zaWa Kj ?o?zloala umo z?agj aluzauas oa sa?ipua autos jo az ?sap oql az?u2000z satj ?I ?jIl atl,L paz1uefia0 aae spaepue ;S ay; MON Ott NOIlaflaONINI N011a3 - uoymauag jjJgjjvd.ro sprvpuvlS u0.11aauu03raluj Interconnection Standards for Railbelt Generation 120 Operational Policy for interconnection to the Interconnected Railbelt Electrical System It is the operating policy of the Utilities to provide authorization for generating facilities to interconnect and operate in parallel with the Interconnected Railbelt Electrical System provided this can be done without adverse effects to, personnel, equipment, or system operations. The power to grant such interconnection authorization is delegated to the Intertie Management Committee. Such authorization is governed by and subject to adherence to the Alaskan Railbelt Operating Standards. This document provides the general Standards and requirements to make such interconnection and operation possible. All interconnected entities will be subject to the requirements of the Alaskan Railbelt Operating Standards as adopted by the Intertie Management Committee at the time of interconnection In these Standards, interconnection is defined as the electrical connection of generation facilities greater than 10 MW evaluated at Standard Temperature and pressure or that as a result of any N -1 or probable N -2 contingencies (including Fuel Supply) assessed against the boundary dispatch cases adopted by the Intertie Management Committee at the time of interconnection, and as identified in the required system studies is found to be capable of moving the interconnected system frequency by 0.1 Hz (one -tenth Hertz). Parallel operation is the condition where generation operates while electrically connected to the Interconnected Railbelt Electrical System; under this condition, real and reactive electric power can either flow from the Interconnected Railbelt Electrical System to the generation facility or vice versa. Within these Standards, the term `Producer' is used to refer to the owner(s) of generating facilities, or agents acting on their behalf, who have been authorized by the Intertie Management Committee to interconnect and operate generation in parallel with the Interconnected Railbelt Electrical System. Also in these Standards, an `applicant' is defined as an individual or party who has applied for the interconnection of generation with the Interconnected Railbelt Electrical System. The operation of generation in parallel with The System poses important safety concerns for personnel and equipment. The safe, reliable operation of the Interconnected Railbelt Electrical System is of the utmost importance to the Intertie Management Committee. Accordingly, any interconnected generating facility must meet all applicable federal, state, and local safety codes and regulations, in addition to the specific Standards and requirements contained in these standards, and, the most current version of the Railbelt Operating Standards as adopted by the Intertie Management Committee. The Intertie Management Committee requires those applying for interconnection to obtain the services of an engineering professional, expert in power system analysis, the design of wiring and of protection and controls systems, including control and protection systems for generating equipment interconnected within small stability limited interconnected electric grids. Page 5 9 32M uogoauuoonjui aql utotj sa;n.tndos uoijunuaS s,.taonpozd oqj Xgazagm uoilipuoo aql salouop ( ao) uopmodo popuulsi `sprepunis asag; 3o w3woo oqi uitpiM 54/pue /S/ 05t - uotlipuoo iuilnaado siq; zapun olgissod si swolsAs oml aqp uaamlaq mold .tamod antIonat put, It,at Xum -omi `splom .taglo ul tuzIsXS aql olui �;iltovj s,.taonpotd zip tuotj io/puu Xi!liot,3 s,.zaonpoid oql of tualsXs otp utojj mold uno iamod oialoolo `uoilipuoo sigl japurl •tuaisXs Impioalg ilogiiu2l paloauuoozaiul oqi o; pa ;oauuoo �Ilnoploojo oltgm salniado uotlt,aauai? oiogm uoilipuoo oql sn pauijap si uoijundo iallujud ••utalsXs Inoploola jiagiin2I ag; Lpim uoijuzado Iallt,aud jo uoiloauuoozalui jo suuatu �q olqudt,o XIlnoploolo PM OZI uopoas jo sluautaunbai oql 2upaaw wojs.�s Xun of XIddt, spznpurIS osagZ uoi;eaad0 /a//eaed OPt •spaupue ;s asaq; ;aatu o; paau pinom sai;iiiae3 3o spud .io sai;iliae3 pa.ia;ip illuvag!u2is .io eiaN •pa zag;e3Puea2 aq o; sai ;iliap3 Ipuoi;p.�ado '2lui ;sixa -aid Bans aziugoaa i Xjjvaijiaads sp.lepup ;s asagZ •spiupup ;s asaq; o; aaagpu o; alge aq ;ou Setu sai;iliaq aaplo Suput pup sapuaap 3o asanoa aq; aaeo do ;Imq uaaq seq wa;sSs ag; ;eq; paziuSoaaa si ;I •iunoilddu zip puu aalliututo:) juautaSuuuW misolul oq; gloq 3o suoijuSilgo puu slg2ta oql gsilgmso of isixa jngj swomooi2v iun i?uiAjtpow sr porulsuoo aq jou lings luotunoop sigZ •loauuoozajui of Xltaoglnu oql utt,lgo of aapto ui lom aq isnw vqj osagp of uoptppn ui sjuautaainbat anug ,�uut soppotpnV 2uiout,lt,g pun uoiloouuoojojui .toj sprepums olquidaoon wnwiutut luosoidaa spiupunis asagP utnSn aoup -pautt,jutt,ut si ilagltu-d pajoauuooaalui zip jo aouuuuojtad olgnilaa pun aJus oqj Iugl ainsuo of luuoilddd oql glim liom of si uopwoua3 '2up3ouuoozaiui sptumol �gdosopgd jjogiin2I agZ •soiltlil11 atll �q p3imodo zo pun poumo saoinosai 2uipnloui `tualsks otp uo saoznosai uorju.rauai? 2utllu1sui pun 2uijunlun3 ui XIddu IUM 30111ututo:) Juatuaftmw 011iolul aqj jugj sluot uiinbat put sp upuuls utnutiutut zip luosaidat spiupumS osogl ui pouiuluoo s ;u3momnb3.z zip lugs paiou oq pinogs it -uotloauuoonjul ;Iagiin2I atp gltm uopoauuoonjui olqu az put ajLs n ioj uoi;uziaogpnu uiulgo ut,o auuoilddu aqj gotgm Xq pog ;aut luatpadxo inq gSnozotp n apinojd of si ss000td uotioouuoozalui 1I3gliu2l aql jo osodand oqZ - sluautaimbat a- avpojui ,(jililn puu t,ijolpo Builaiodo luoiugoai og!oods oql ouiuualap of sooalsop aiagl zo Xl!.ioglnd 2uiout,ing ajulidotddu all `ozu!uzuto3 juawanut aiiajul otp Xq pozXIt,ut, aq atojoiogl Iltm slt,sodoid IIV •pp2 Imploala paloauuooralui agl of iouduti put, `soilsinjouuugo Iuuoilnzado `uolwool otgduz2oa2 ui anbtun oq Ipm utalsSs oql of loauuoojui of Iusodozd goua :uoiWliodo puu uStsap gloq jo suuai ui sutalsXs xoldutoo Xlivaaaqut 3m suotioouuooaaIut Iuoi.113919 uoyvrauag ;1aQllvM jof sprvpuv ;S uo .qaauuoa.ra ;ul Interconnection Standards for Railbelt Generation while maintaining energization to a portion of the electrical system temporarily separated electrically from the rest of the System, but normally considered part of the Railbelt Electrical System. Of primary concern are safety and reliability issues which may be present to the System and its personnel under islanding conditions. Maintenance personnel must have the assurance that any section of The System that has been de- energized and is under a hotline order or working clearance will not be re- energized until there is confirmation that they are physically clear of the System. Under an islanded condition, such assurance to personnel must be provided by the generating facility following the appropriate Transmission Operators" switching and clearance procedures. In addition, appropriate System frequency and voltage must be maintained within the Island. SECTION 2: INTERCONNECTION PROCESS AND APPLICATION PROCEDURES 210 Objectives This portion of the interconnection Standards contains an overview of the process and required procedures to interconnect Producer -owned generation with the Interconnected Railbelt Electrical System. It also provides both administrative and technical Standards to assist the applicant in obtaining such interconnection in an efficient and consistent manner. A Producer intending to operate generation in parallel with the Interconnected Railbelt System is required to complete an "Application for Operation of Producer - Owned Generation." The time required to complete the process generally depends on the complexity of the proposed project. The applicant must provide the appropriate Balancing Authority and the Intertie Management Committee with a complete design package including accurate machine modeling data in the PTI -P /SSE format and system control and protection settings so that the nature and extent of system integration requirements may be determined. • As a rule of thumb, the smaller the proposed generation system (as a percentage of the total system generation) the more limited the design review and study requirements will be. The review of the interconnection facilities and analysis of the impact of the proposed interconnection on the Interconnected Railbelt Electrical system will be evaluated based upon preliminary power system studies. Several of the process steps may be satisfied with an initial application, based on the detail and completeness of the application and supporting documentation submitted by the applicant. Additional more detailed and rigorous studies may need to be accomplished depending upon the outcome of the preliminary system studies. The Balancing Authority will clearly Page 7 g ai?ud •uoijaauuoanjui pasodoid s,jubailddr aqj jo ilns3i 13 se sinaui Ip gjnV gutauquS aqj sisoa aqj jo juawi�ud lln3 zoj algtsuodsaa aq Ilion jumilddu aqZ •uoilaauuoaza;ui pasodoid s,luumIddu aql of palulai sisoa sai �jpuop! uoyvraua f) ilaRllv2r jof sprvpuviS uoyaauuoajaiuj Interconnection Standards or Railbelt Generation 220 Authority The state regulatory agency having authority over the supply of electrical service requires the certificated Utilities within the Railbelt Interconnection to provide safe, adequate, efficient, and reasonable service. All interconnection requirements must comply with the appropriate Transmission Owners internal interconnection standards and requirements and the Balancing Authorities control requirements. Any party desiring to interconnect and operate generation in parallel with the Railbelt Electrical System must comply with the requirements contained in these Standards as well as any other adopted Railbelt Standards. 230 Process Review and Responsibilities The following process is designed to provide the Applicant with an understanding of the information and steps necessary to allow the Intertie Management Committee, Transmission Owner, and Balancing Authority to review the Applicant's proposal and provide authorization for interconnection in a reasonable and expeditious manner. Page 9 01 a$ uo maua f) ilaqllvW sp mpuvlS uo .qaauuoa.ralul - Juuz)! - Idd le aq, utolj saa3 Outss000id jo 1d!3ooi uodn utgaq lll^m 2uiss000ld uollt'oilddu `pajou wu saimudwosip ou 31 •uoiluoliddu all jo jdtaow 2ullou IuLOilddt' oqi of 2ull!im ui puodsa.t llim iw0wV outouplug aql (s)uoijuo►Iddu oql Ou lAtaoa.I 3o Sfup ssouisnq u3aiji3 uigi►M •so2ut'go adoos .to salnsat fpnis oa onp Apnis luuop!ppu .toj auautatmboi aql uo 2uipuadop paiinboi oq Xvtu slisodap luuotltppu aipoilod pup slunoutu llsodop asagi ;suiu2u Xlgluout palliq oq llim softgo lunjod •Ouiss000zd uolluoilddu luut3 jo aural aqa au apuut oq llim sisoo Xpnis 3o alutullso s,joouioua agl of lunbo junowu up ul Iisodap �uilt3 uotluoilddu luiitui uo own aql ju piud aq litm sisoo antlu.ISIUImpu p31uun;s9 •sIsoo aniIutIsiututpt' 2utpnioui ulup luuoilddu 3o smalAOI put' s `fipnis `2utssaoozd uoi�uoiIddu glim pa;uloossu sisoo palt'utpsa oql 3o luotuAtd luot3 do .to3 olgisuodsa.t oq Ipm iuuotiddu oqj, •luuoilddu oqj Xq owoq oq lltm uoiloauuoojolui posodoid oqj 3o stsAluuu pup Xpnis ql►m pajutoossu sisoo lun;oV •pannbat sl uoljUUUojul iuuo Xuu 3i auiuualap •sXL ssaulsnq of luajtutgns aqa Jo matnat 3alzq u utiojjod litm � Ipogjnd fu►ouulug aqa `uotluoilddu uaznad pun I 01 �IluoldX L palaldutoo aqj sallj ;uuotiddu aql uagm uoz�no�JddV lbz�iuj ul •sanssl uotIuuuojut Ipuoiitppu XUR anlosa.t oa `.tauuuut luatpadxo up ut `lut'oilddu oql gpim aluulp'000 ll!m Xatioglnd fuiouulug aql 8ulssaoodd uotlno ?/ddV :,7 dais i?utanp fauss000u atuooaq Xvw uollt'uuoju1 luuot)tppu `alou oy •2utssa3oid uotjumiddu 3o wowoouaututoo atojoq palliutgns oq pinogs suoiluoilddd luull pup lui;tul oql gloq ioglagm of su 3ouuptn2? apinold oslu lilm Xl!ioglnd Ouiouulug aqa 'Su►ss000id uoiluoilddp olpAxa dloq of uo!13auuooiglui posodold oql fuipitlOw u011uu jojul pup ulpp luoiugoaa pwinbai •aoofoid aql 3o uoiliut3ap aualo u anuq pinogs ;uuo►lddu uo 2utpuodop oql `Xlizoglnd Oumulug oql g11m s2ui13aut uoi ;�aplo� n1�Q 'g `alqut.zun luanbasgns .to `uolltmiunwwoo lviltu► aga utol3 uo maua f) ilaqllvW sp mpuvlS uo .qaauuoa.ralul Interconnection Standards for Railbelt Generation Step 2.• Application Processing A. Initial Application Initial processing involves: Processing a) Payment of estimated administrative and preliminary study and analysis processing fees (see Step 1, C). b) Determination of the scope and performance of preliminary interconnection studies required. Including but not limited to preliminary: Power Flow Analysis, Transient Stability Analysis, Available Fault Current Analysis, Existing Facility Rating Analysis and Fuel Supply analysis. c) Performing a preliminary impact review, to assess the impact that the proposed interconnect will have on Railbelt facilities and consumers and providing guidance on the extent to which more rigorous studies or expanded studies are to be performed d) Assessment of any specific requirements in addition to the general requirements outlined in the Standards. Typically not to exceed 90 calendar days. Page 11 Z [ asud (aunt i?utss000td uotieo►Iddd jeul 4/IUiliuj ut popnjout uoiluinQ) - io3 aigisuodsoi oq X7aw juvoiiddu oqj gotgm stuali isoo .to sansst 2uipuelsino XuU ssaappt: Ipm put: `sauotuatmbai uotloauuootaaut o►jioads- Xj!j!oRj Cut? 3o ootlou opnioui Ipm siq L •uoitoauuooniuc pasodotd aql 2utpn2at osuodsat uaiii.tm apinoid Ipm (IuoglnV Suiouuit:g oluttdoiddu oqZ uoT1v�zlddd of asuodsay •j •sIsa; 2utuotsstuiutoo of uosijudutoo aoj uo►aoauuootaluj jjogj!vN 3o jutod aqa of Iuoilorld su asoio su ao ju •oaa Alii►quis `Xouanbojd `92UIIon - s.talau umd fdOA0001 put' osuodsa uuisAs 3o 2upsal outiasuq pannbat jo aouuUuoJtad (8 •saotntas tiL'iitout; 3o uotatstnbz)v jo 3ooid puU sJu3uta312V sap:S .tamod Xuu jo suua; 5uilmodo maina21 (� •uotIoauuoo. olui posodotd agt gaim paauioossu sonsst spjupuuls puu apoo aigeoiidde 3o tuotussmsu put? ma►na21 (a 'sauauuaimboi Ioiluoo put: fulowajat ot3loods 3o uoijuuiuuajaQ (p 's.tatautund 2ugujodo ot3toods- Xjtitauj 3o uopuu►uumC[ (o 'suopuot3ipow tualsXs faussaoau put sluotua.nnbaa uotloauuoo.zaaui oi3►oads ssosst? of `pa.ttnba.t �jq!gvi!PAU se `satpnis puu sass lt:u>; tuajs�s snoto2t.t oomosat put; 3131dutoo 3o aoueuuojiad put; 2utdooS (q puu adoas loafojd - Xl!.toglnV Buiouuiug agl uo 2utpuod3p Xq pauuo3.t3d aq of sisoo sisXltuu puu Xpnis .n ox Jt puaieo I>?uoilippt pa ;t utpsa 30 �uatuXud lisodaQ (v 8uzssa�o�d I osI :sanionui XIPuaua2 2utss000id uotivoiiddt luui,d uozjvoildddlvu •g uoilviauag ilag11vg jof sprvpuviS uopaauuoa.ra ;ul Interconnection Standards for Railbelt Generation B. Final Design Review and Coordination provide definition on specific content necessary in the draft final design package. This procedure involves the Balancing Authorities' review and coordination of the submitted final design. The Balancing Authority will assign a Project Manager, responsible for design review, project schedule coordination (with the Balancing Authority and Intertie Management Committee), and any necessary system modifications. Variable; dependent on scope of project. If system modifications are necessary to accommodate the proposed interconnection, such work will be initiated by the Balancing Authority and these modifications, billable to the Applicant. A preliminary cost estimate will be provided to the applicant prior to work order finalization. After the Balancing Authority and Intertie Management Committee approve the final interconnection design, a `Provisional Interconnection Agreement' can be executed between the Applicant and the Balancing Authority, and construction can proceed. Step 4: Construction, Inspection, and Acceptance A. Provisional with approval of the applicant's final design, and Interconnection written agreement that the applicant will bear all Agreement costs associated with system modifications (as necessary), The Balancing Authority will authorize construction of the interconnection via the Provisional Interconnection Agreement. Essentially, this agreement allows the applicant to proceed with construction and to perform subsequent testing to ensure that the interconnection is safe, adequate, and reliable. Dependent upon Parties. Page 13 v I aOud 'algmIUA 'alquIRIA 2uiouulug oql 3o sluaatatinbai aql puu sptupuulS uotloouuootalui llaglTug g1Tm aouuildwoo ui pwinbou saotA.ras tiulpouu aql �?uiaaluutun2 puu x3uilpulap Xlln3 Suipuoq jo/puu aouu.msui `(XjUssaoou 3i `VDN oql slim polg) sluautaaifu apinoid llugs luuoilddd oql luauraat3V uotloauuoojalui luuid aql 3o uotstnotd of .toiid •siopio 31101A uotluO!J!pout uzalsxs lo/pub 1 2utss000id uoiluoilddu slim paluToossu slsoo flu io3 �IpoglnV 2uiouulug aql osingwmi Iluqs luuoilddd oql luautaoi2v uotloauuootaluI fuuTA oql 3o uotstnotd of .toij l •spiooai lsal uotssiurutoo Ilu 3o soidoo slim papinoid aq llim �luoglnV 2utouulug oqs •louuosiod luoiugoal pou2issu s, 2uiouulug aql 3o uoiluAJosgo loollp aql Jopun puu sooilouid 2uiuoissiumioo pold000u luwino satlitoglnd 2utouulug aql slim aouup1033 u pa lsal pauoisSIWWoo oq Ipm luaurdinbg III' •soilsizaloujugo 2uilut3do .CI!pou3 jo a2uuj lln3 aql .tapun olquldaoou am �jqunb .tamod `su llam su `sindlno uttulu puu falautalal `osuodsai oouututo3a3d liun `soililiquduo 2utziuojgou�s `sluiod los utals�s uoilooloid aql lugl amsua of `papoau su `(2uiuoisstwwoo) 2uilsol aouuld000u Iuuoiloun3 uoiloauuootalui azt.toglnu IP.m Xl!joglnd 5utouulug aq j, `uoilon.zlsuoo jo uoilaldwoo aql fuimollod •ui?Tsap IuuT3 panotddu aql jo suoiluoy!oads oql laaut soililiou3 uoiloouuoo.talui aql lugl lugl wnsuo o f Xl!.zoglnd 2utouulug oql jo uoTlolosip oql lu `pmioj.tad aq llim (uoiloodsui Inn put suopoodsui oipoind •uotloadsui umpouuootalui luuij puu `suoiloodsui otpoi.tad .toj .taiuuum loofoid �soil!joglnV �?ulouulug slim 2uiluuipi000 `uoilorulsuoo uoiloauuoo.talui slim paaootd �vw luuoilddu oqZ u011nazO.10A saaTn raS 'Unpp .mv pun uo?1n p ?ouooa y ;soD aounldaoad pnuzj •j uolloadsu1 pnuzj pun uotlan asuoD •g uoyvrauag ilagpzvy jof sprvpums uo?loauuoaraluj Interconnection Standards for Railbelt Generation D. Trial Operating The facility will undergo a trial operating period 45 Days or more Period of the greater of 45 days or the projects depending upon declaration of being "commercial ". During this performance. period, Online Reliability must meet or exceed the 12 month rolling average of the remainder of the Railbelt interconnection generating units Online Reliability. For each occurrence in which unit Online Reliability exceeds Railbelt average the 45 day clock is reset and begins again. Successful conclusion of the trial operating period is required prior to Final Interconnection Acceptance. The facility will be required to provide or acquire 100% spinning reserves during the trial operating period. This requirement may be reduced by the Intertie Management Committee on a case by case basis for facilities that clearly could not (or would not) be substantially base loaded. E. Final Upon completion of Final Acceptance, Cost Dependent upon Interconnection Reconciliation, and Trial Operating period the parties. Acceptance and Final Acceptance Agreement can be executed Commercial Operation between the Applicant and The Balancing Authority. SECTION 3: INTERCONNECTED OPERATING REQUIREMENTS The general operating requirements and criteria contained in this section apply to all generation facilities interconnected to the Railbelt Electrical Interconnection electric system. Any Producer operating outside of these requirements, unless provided expressed permission by the Intertie Management Committee, will not be permitted to operate in parallel with the Interconnection and will be responsible for any and all remediation actions and associated costs prior to gaining approval for parallel operation. The consequences for failing to meet any of these requirements are immediate disconnection and payment of all associated costs. 310 Approval for Parallel Operation The Producer may not commence parallel operation of generation facilities without final written approval from the Intertie Management Committee The Intertie Management Committee, Transmission Owner, and Balancing Authority reserve the right to inspect, test, or perform witness testing of the Producer's equipment or devices associated with the interconnection. 320 Discontinuance of Parallel Operation Page 15 9I aft'd •SutX16'Iaz anipoapoid papUIaa aSUplon puLI uoip>?lioxa OlUtidozddu Xq poloolozd aq Il!m uoilLJQuaD poloauuoo. olui put uoipoauuooaalul aqZ •sooub Suianp aouaRLanuoo 8utnns 5uo is ptgigxo II>;gs SOSUIlon oiuzeuXp put, puaisut?ap `uoilippu ul "piupumS I - t8D (ISNV) alnlilsul spjupuu1S IMoilt;N u lua.uno agl ui pouirluoo suoiltpuounuooaa pu>; sSuilvi alp op ongpv lluus (uo jo puiod aqp pt?) aSUllon s, .iaonpoid aqp `saipnis uzalsXs paainbaa agl ui paijtpuopi sv `(Slddns lon3 Suipnloui) saiomOuiluoo Z - N olgngoad pup I Iiu JOJ voipoauuooialui jo puiod aql pu 35Uplon uzals.fs llagiiu pi aqp 3o luaotad s+ uitp!m pouiuluim oq Ism aieplon s,zaonpo .id zip `uoilooummapul llogpuX agp gpim jollured ui 2upundo uogM •uopoouuootapui jo putod aqp pu uoiloouuooiolul oqp jo olg id io osuodsaa a81LIllon agl QPUJSap lou IlL'gs uoipoauuooaalui snonpotd agZ `saipnis uzaps is paunbaz agp ui pag!juapi st put `(uoiloauuoozalui jo owil oqp pu aapl!wwoD luawQSuuuW oivalul zip Xq poldopu sosno gopudsip f,repunoq agp psuiuSt, possassu (XIddnS long Suipnloui) sai3ua2utluo3 Z -N algLgozd pu>? I Iii JO-4 sIana OBe }Ion W s;uawaainbay a,6ellon op£ •saouugjnlsip wolsXs 2uunp jo `liun aqp jo sog!oods puu sluiui1suoo wolsXs `uoilvool 2uijopisuoo �lizogpnd Suiourjug oql Xq paniLInn s1 puauzazinbw sigl ssolun `pool jvoupoala poloauuoD soipizogpnd Suiourlug u jo uoiltod u glim apow popuulsi ur m olvaado op alqu aq op paainbai on szolt;moo uoi;eaado popuelsl ore •uoiloouuooaapul aql of snopjuzuq oq pinoo p>?gl suoilipuoo ao uoipoauuooaalul llagl!LH agp looloid of hussaoau aout?uapuivuz puauzdinbo aprnbopu jo 3Ioul e aagpia slt;anat luauzdinbo SutlwouoS s,aaonpo.zd oql jo uoiloodsui uu uogM ■ `uotpoouuooialul llagltt agp op poloauuoo saaonpoid i3mod joglo to/puu Xpiligvila2l ao Aliltnb iomod uoipoauuoo.zapul llogliL,2I gl!m iuinjiolut st luauzdinbo guip>?aauoS s,aaonpoad agl uagM ■ .soiauagaawo uzalsXs i?uiznQ ■ `.saipiiion3 papoauuooaapul jo ziudai ao `isol `oouuualu!uw aptltliotj 01 ■ :aalliurtuoo puowa2Nuvw atlaalul io ,ipiaogpnv 2uiout:lrg aqp aagpia Sq polsanbaa uogm uoiltando Iallujud onutpuoosip IILgs nonpozd aqZ uopvrauag ;Iagllv2r jof sprvpuviS uozjaauuoa.ra ;uj Interconnection Standards.for Railbelt Generation 342 Voltage Fluctuations For all N -1 and probable N -2 contingencies (including Fuel Supply) assessed against the boundary dispatch cases adopted by the Intertie Management Committee at the time of interconnection), and as identified in the required system studies The Producers interconnection with the Railbelt may not increase voltage fluctuations that may be noticeable as visual lighting variations (flicker) or may damage or disrupt the operation of electronic equipment. Voltage Fluctuations may not exceed the operating conditions prior to interconnection. The Institute of Electrical and Electronics Engineers' (IEEE) Recommended Practices and Requirements for Harmonic Control in Electric Power Systems (IEEE Standard 519) provides definitions and limits on acceptable levels of voltage fluctuation. Generators operating in parallel with the Railbelt Interconnection shall comply with IEEE Standard 519, Section 10.5.1, and Figure 10.3: Maximum Permissible Voltage Fluctuations. Specifically, no interconnected utility generation facility will be allowed to exceed the percent voltage fluctuation above the `Border Line of Visibility Curve' contained in the referenced figure assuming this condition did not exist prior to interconnection.. 343 Voltage Regulation and Reactive Power Requirements For all N -1 and probable N -2 contingencies ( including Fuel Supply) assessed against the boundary dispatch cases adopted by the Intertie Management Committee at the time of interconnection., operation of the Producer's generator shall not adversely affect the voltage regulation or profile of the Railbelt Interconnection. Adequate voltage control shall be provided by the Producer to minimize voltage fluctuations on the Railbelt Interconnection caused by changing generator loading conditions. Interconnection of the plant or unit shall not result in degradation of the voltage profile of any system bus under any N -1 and probable N -2 contingencies (including Fuel Supply) assessed against the boundary dispatch cases adopted by the Intertie Management Committee at the time of interconnection. For synchronous generators, for all N -1 and probable N -2 contingencies (including fuel supply), as identified in the required system studies, sufficient generator reactive power capability shall be provided (or obtained as an ancillary service) to withstand normal voltage changes on the Railbelt interconnection without degrading the pre - interconnection voltage profile at the point of interconnection. The generator reactive power requirements, voltage regulation, and transformer ratio settings will be jointly determined by Page 17 8I a s;uawa imbaty anaasaly (6u1uu1dg -uON) fiui;aaado -uoN £5£ - Xoilod ivip ui glzo3 las uotlpool otgdmSoa5 pup `osuodsaa jo fl!lunb sluauurtnbaz a p ww Ilpgs put aalltunuo:) luauza0UuUw atljalul oql Xq panozddt Xotlod anjasai guilvaado luauno lsow otp iq pag!oods lunowu up ui oq Ilugs paptnoid samosa - d •uotloauuooaalul llagl!u d aql of samosa 5upuiodo (jo uotsinoid a p ioj 3upopzluoo jo) Outptnoid ioj olgtsuodsaa aq Ilugs joonpoad olu s;uawaainbay anaasaY (fiumuidg) ,6ui;aaado Z5£ •uoilu.zaua2 szaonpozd oql uopoouuooaalut oql �q poprBop oq lou Iipgs uopoauuooaalul llogl!tN aql jo asuodso -d Irtljaut agl satpnls uzals�s pazmbaa agl ui patJtluapt su `(XIddns lanj 2uipnloui) satou32uiluoo Z -N olgegojd pup I tip .104 s;uawa imbaly asuodsay le pain ao;e iauao tge •SltzoglnV ftouvlug aqi ip!m polumpz000 oq llt^*, `algrltRnn 3t `,,snouoagoost„ um of �i!pgv aq.L - polpInSoi �Izadozd si �ouanbaij uzalsXs wql pup o %os paaoxa l ou Illm doozp imp oinsuo o pouivilsasun polw3do aq l snuz s.zouzanoD •aalltuzuzoD luauza2puvW atlialul oql Xq panoiddu oq pup uotldooxo agl putgaq alruotligi aql olvls pup 2utl!:Im ut apaz oq llegs uotldooxa Bons : '2utouujvq aql Xq luauzaatnbaz sup uzozj pasnoxa Xlltotldxa ssolun `saiup IIU lLI Ioaluoo .zouian02 aapun oq Ilugs siolumog - ouzel oql lu llagltr2l aql jo s 2upl os doozp go luuz o sopsmioungo doojp of g - %£ $utptnozd 3o alqudLo oq Ilugs s.iowaauOD 'aalltUltuoD luauia2vuuW atlialuj aql Xq poptnoid oq Ipm s2utllas sotlst.Oj3UJUg3 aouzanof) s;uacuaainbay dooap ao;aaauao o5£ •panlosaa st walgojd oql 1pun poloauuoostp ,�Igtstn zo uzalsXs liagitu2I agl woaj polmdos Xlalvtpounut oq IIVgs luawdtnbo OupunuoS aql `uo s,zaonpoid agl jo uotlamdo woaj llnsaz 1 a1otl3 antssaoxa zo suoiltpuoo a��llon Wool zo g�tq 3l - uopoauuoozalut of aoiid poouxiodxa asogl paaoxa of polltuuod aq lou Ilpgs s3tltlt3n3 s,zaonpozd aql 3o uoiloauuoojalul aql o onp siownsuoo 11agltu2I o suotldnualut ao `su0 Xouonbaa3 `suotuOISlp otuouuL'q `sa &Ilion Ituuougd •uotloauuooaalul agl Xq paouataadxa aoinaas Jo XI!ILnb oql ui uoilonpaz fiuu asnro of palltuuad aq `aourisuznomo Xue aapun `lou Ilan' uopoauuoozalul llaglIp - d aql ip!m luauzdmbo SuppiamS s, .iaonpoid oql jo uotlViodo Iallaz7ad oqZ - alum jolor3 iomod p3g!oads oql utgltnn ownuai? of zap -Io ut sluauzaztnbaa lomod aniloRZJ unno ziagl aptnoid of paatnbaa an? szaonpoad •, 1I!pquduo 2utiviodo put outivutpa000 uzalsXsjalut wnsua of iaonpoz l oql pup �I!joglnd Outouplug oql uoymauag ;Iaql!v2r Jof sprvpuVIS u0113auu03raJul Interconnection Standards for Railbelt Generation The Producer shall be responsible for providing (or contracting for the provision of) non - operating reserves to the Railbelt Interconnection. Reserves provided shall be in an amount specified by the most current operating reserve policy approved by the Intertie Management Committee and shall meet the requirements of minimum start time, quality of response, and geographic location as set forth in that policy 360 Harmonics Harmonic distortion is defined as the ratio of the root mean square (rms) value of the harmonic to the rms value of the fundamental voltage or current (refer to IEEE Standard 519). Distortion of the harmonic content of voltage and /or current waveforms can cause telecommunication interference, disable solid -state equipment, overheat transformers, and create resonant over - voltages. In order to protect The Railbelt equipment and consumers from damage, harmonics must be maintained within acceptable limits. As such, for all N -1 and probable N -2 contingencies (including fuel supply), as identified in the required system studies, the interconnection of the Producers facilities shall not be allowed to introduce harmonics into the system beyond those present prior to Producer interconnection. IEEE Standard 519 specifies a range of Total Harmonic Distortion (THD) limits based on the size of the load with respect to the size of the power system. The Producer's equipment shall not introduce, onto the Railbelt Interconnection, voltage or current distortion in excess of the limits contained in IEEE Standard 519 or those present prior to interconnection, whichever is greater. Specifically, voltage distortion shall not exceed the limit outlined in Section 11.5, and current distortion shall not exceed the limits contained in Section 10 of the referenced standard. In addition, the Balancing Authority and Intertie Management Committee advise that the Producer consider and account for harmonics in the early stages of facility planning and design. If excessive harmonic distortion is suspected, voltage and current distortion measurements will be performed and compared to base line data to determine whether the Producer's equipment is a source of, or contributor to, excessive distortion. If the Producer's facility is found to be the source of excessive harmonic distortion, the Producer will be billed for the investigation costs, and will be held responsible for corrective action to bring the harmonic content within the referenced limits. 370 Power Factor Requirements Producers are responsible for reactive power necessary to maintain power factors such that the voltage profile of the interconnection point is not degraded by interconnection of the Producers facilities. Producers are required to provide or contract for the provision of ancillary services for reactive power support in order to maintain operation within the specified limits. 380 Coordination with Railbelt Protective Systems Page 19 OZ a •satjtltot,3 s,.Taonpozd oql jo Suilsal It,uotiounj anaasgo of lgSij ag1 aaumo UotssTUZSUt,.TZ atp jutB lsnw joonpoid aqZ wonpoad agi put nunno uoisstuzsuei,I, all uaannlag uol ;aauuoa ralul .ion' mautaai8v Pill ultp!m Xl!jotpnd SutouuIrg agi Tpinn pQILutpj000 put poug3p ag Ilrgs (•oia `2?utjit,l3J antloaloid `saotnap IoaUUOOSip `sagolinns `s.TzVojg 11nomo `•a•T) juatudinbo anTloolaid jo Sutlsol It,uotloun3 otpotaad Builsal leuoiloun j suaaIsAS ani}oaIO.ad US ,iltaotpnd Outout,lt,g oql ql!m juowdinbo uoTjoauuoaialui uo aout,ualutt,uz olnpogos put, owutpi000 isnw aaonpozd agZ •uogoauuooaajut atp jo slllsolut put, XlojLs otp aznsst, of .Tapio ui 31aonn aout,uaju!utu ioodsul put, anaasgo of bola Am ooujuzuToD iu3uza2t,uRW oilialui oqZ Xl!ltot,j oql jo Sltltln put sotisualoujugo otp uodn 2uipuada(:j •paatnbaz st, SpaooaJ put, nnatnaa s,30111UTtuo:) JUatuast,uuw 31113jul aqa JOJ algt,lit,nt, apt,iu ag llugs sjlnsaa put `saznp000id `sp.Tooaa aouuuaiu!UW •uopoauuoo.Talut aTp 3o apis s,.Taonpoid oqj uo poluool luotudinba uoTloauuooaalut Ilt, jo uotlipuoo It,uoilmodo jadoid `ojus otp 2uiutt,jureuz put, 2utmsu3 .To3 olgisuodsaa sT nonpaid olu •uoT]aauuoo.ra;ul .,of ;uauraa.18d aql ut pouit,luoo To spmpuulS osogl ui patjtoads gwil Sutlt,aado atp jo apislno zo `uzalsfis ilagl!r -a aqi 3o Xit.t23iut oqj of snopmzt,q zo algt,ld000t,un jouut t, ui guilundo si ioonpoi l oqj wqi smaddt, 11 aanauagm saijiliot,j s,aaonpozd aqp joadsui of ag2lj atp Sanaasaz 0011iUZUZO:) luaU132t,ut,W atuaIui aq L •.zapJo P002 ut luowdinbo aoujimut put, uopoauuooialut sjt utt,lu!utu Ilugs nonpoid aql eoueua}uiew juawdinb3 uoi}oauuooaalul WS &W-90l F aauaua;uieH/ 06C sluaura.i ur tnbay juadznbg uotlaauuoaia;ul S uozlaas ui puno3 ag ut,o s2umas put, suoijoun3 antloolaid pannbaa uo sz)g!oadS . LUQJS,iS antloaloid sioumo uotsstwsut,aZ agI tp!m pajt,utpz000 Kliodoad put, `3011iUTWOD luaW;)OuutW ailtalui aqj Xg panoiddt, put, paMatna.T uaag ant,q SBUTIJOS put, SUOTJOunj antloaloid uopoauuoomut paatnbai Ilu plun pannollt, zo paztaoglnt, ag lou Ilion uotit,aado Iallt,at,d `XISutpi000d •pta2 XIddns It,otzjoala a p jo Xjtitgt put, X13jt,s atp of oomliodurt luotlt.To jo st walsKs uotloaloid siounno uotsstuzsuujjL aqi glint SUOTJOunj antloaloid uotjoouuoo.zaiut s,.Taonpoid atp 3o UOIILutpj000 zadoid oqZ uoyvjauaf) ;Iaqllv2f jof sprvpuviS uoz;aauuoaralul Interconnection Standards for Railbelt Generation Generally, functional testing of protective relay settings and interconnection circuit breaker operations shall be performed by the Producer per the manufacturers recommended testing interval. Documented test results must be provided to Transmission Owner within five (5) working days after the completion of tests. The Producer must grant the Intertie Management Committee the right to review and modify the functional testing requirements, as necessary, during the life of the facility. Page 21 Interconnection Standards, for Generation Section 4 SECTION 4: GENERAL REQUIREMENTS 490 Design Requirements 411 Design Documentation and Information For review and reference purposes, the Producer shall submit the following information and design documentation with the interconnection application(s) (Refer to Appendix P Applications for Interconnection). In certain cases some submittal requirements may be waived, at the Intertie Management Committee's discretion. The design documentation will need to be approved by an electrical engineer, registered and recognized as a Professional Engineer in the State of Alaska. Where this approval is required, it shall be indicated by the presence of the engineer's professional seal on all drawings and documents. A. One -Line Diagram This is a schematic electrical drawing with sufficient detail to show the major elements of the facility electrical connections, interconnection and protective equipment, and point of interconnection to the Transmission Owners electrical system. The diagram should include the following: • Generating equipment • Circuitry of the facility, to include conductor types, sizes, and bus electrical ratings • Metering points and instrument transformers (as applicable) • Interconnection transformer • Relays and circuit breakers /interrupting devices • Switchgear (as applicable) • Utility circuitry at the point of interconnection B. Three -Line Diagram (as required) This schematic electrical drawing shall represent all three phases and neutral connections of the interconnected facility circuits, showing potential transformer (PT) and current transformer (CT) ratios and details of their configuration, including relays, meters, and test switches. C. Relay, Metering, and Telemetering Functional Drawing Page 23 t,Z aged 'uoyan.gsuoi fo juauiaauawtuoa aql pun ;uawdinba ,8uuap ro of .roud aal ;zuiwoj ;uawa2vuvK ap ra;ul aYl fq pano rddv puv `o; panzurgns aq pinoys uggsap 1vuy ay; si'vlap puv s ;soa divssaaauun a1vullulla oZ s2u,muip iuuig agl jo saidoo p31up trim papinoid aq lsntu aa liitutuo:) l u3tu32uuuW atlza 3ql ptre aaump uoissitustreaZ 31l tpoq puu `aouuldaoou ILui3 of aoud 3pntu aq lsntu aallitutuoo lu3tu3SnuuW 311aalul 3gl Jo zaump uoissiuisuLzZ aql �q pazmbaz s32uugo Wv '(uollvuuofu1 pun uoilniumnooa uS1saa wt, t, uolloaS om) luowdmbo pm suoilounj an[looloid uoiloauuoonim 3ql Jo iUnozddu joj numo uoissiuzsuL.JL aql of luatudinbo sigp jo i?uimnzp 3uii- 312uis L litugns iirgs jumiiddu 3gl `u oisXs szaumo uoissitusuujjL aqi jo uoiloaloid agl ioj saoinap aniloolojd 2uisodoid uogm 'sapoo iudioiuntu puu `iUooi `alUls `JUJOPa3 Iiu puu SPJLpuuls ggql `aPOD �1o3us ILoialoaig iuuoilLN aql `aPOD iUoialoaig TuoilRN 3111 0 uuOJuoo lsntu lumadinbo puL su21sop iiu put `slu3urazmbaz s,.r3umo uoisslwsuu.zZ laatu lsntu nonpord oqZ 'suoilu.r3pisuoo orjioads -oiis aaglo ptre `azis `3dXl iolujouag agl uo spuodap wolsxs uoiloalord ail jo u2isop oijioods aqZ •pirB oiuoolo ltagiiw2l 3ql glim uoiloauuoozalui JOJ ignoiddu of roiad oouiunuoo lumuoOlom w arliolui ,�q p3noiddu puU pam3inW su2isop uoiloapozd puu ioJluoo sli anL'q isntu wolsXs liagtit 3tli tlpim iatiu.rud ui 3wnodo of sosodoid putp luuoiidde qo - eg juawdinb3 pue SWOISAS anl}oaIoad Z 6Vl '3311iunuo:) lu3w3SuuvW ailiolul oql fq poisonboi su xlll!ouj paloouuooaalui agl op Ouiuiuli3d sivatunoop jo uoilUuuo3ui uOrsap iUuoiliPPU Sue of apinoid Ipm izonpoid 3ql `3nogv oqi of uoiliPPu ul 'Suiouds put `sopozloolo jo aEi puu `azis `.iogtunu oqi su iiom se `suorloauuoo put `i?uipuoq `sozis aiim punoiS 3 1toiPui iirgs s2uimigzp osagZ siluimu iQ 2uipunoag Xl!l!an3 •g 's5ulmnap 3111 ui pownipui fizL'aio oq pings iozluoo gou3 aoj jamod 3o oa.mos 3qZ 'asoio jo uodo of Xiiiio - ej 3uilommoralui oql of poiiddr sioVojq pinojio lie 3snuo lugi sx3 uaojsuujl lu3turulsui pug sxtiar `suoilipuoo aql molts iitgs sOuimuap asagZ s21ulmu.aQ io tluo3 .aa3ina.ig ;maai3 '(I •Xuu 3i `luatudinbo Surz31atu3ial put `2uilalatu `sXb ivnPinipui 3111 3o suoilounj aql 3 IlL'gs tu161.1BUIP siq,L 1, u093as uoyvraua!) Jof sprvpuVIS uozpauumialul Interconnection Standards or Generation Section 4 The Intertie Management Committee will accept only those portions of the Producer's system designs which apply to the interconnection with, and protection of, the Railbelt system. The Intertie Management Committee may comment on other areas, which appear to be incorrect or deficient, but will not assume responsibility for the correctness of protection pertaining to the Producer's system. At the completion of construction, functional tests of all protective equipment must be performed and witnessed by designated Transmission Owner personnel. In order to gain Transmission Owner approval for interconnected operation, successful completion of the functional tests and verification that protective relay criteria are correctly applied must be demonstrated and documented. 413 Railbelt System Modifications Any modification to the Railbelt electric grid, such as the installation of additional equipment, reconductoring of all or a portion of the connecting Transmission Owners line, or reconfiguration of Transmission Owners protection systems necessary to permit in- parallel operation with the Railbelt electric grid, will be performed by the Transmission Owner. Where such system modifications are required to allow the interconnection of the Producer's facilities, the Transmission Owner will perform these modifications, providing all labor, materials, and equipment necessary, at the Producer's expense. 420 Design Information -- Rai /be /t System 421 Standard System Voltages The Railbelt standard system voltages conform to ANSI C84.1 standards, and are outlined as follows. Specific voltage requirements and limits for Producer's generation are described in Section 3: Interconnected Operating Criteria. ■ Transmission Voltages: — 69,000 volts, three -phase — 115,000 volts, three -phase — 138,000 volts, three -phase — 230,000 volts, three -phase Page 25 9Z a$ud •Itun 0141 jo sojj!oods puL uoilvooj uo Buipuodop si st uz0lsXs ijagjirg 0141 of poloauuoonjui Og Srw `II Put, Oi su `619 99al ui pautLIJuoo quill popuauzuzooai a14j loow puu ouipurlsi -uou ag of `(-In) soijowiogn-I ,siol!.zmjzpun su 14ons `hoviogul luopuodopui LM Sg poglino pu palsal u0ag Onle14 JB14l SJ0V0Au0:) •sjanOj Olguidoom of sindlno luauno puu 02LIJ10n aql i?uiag of guijoipj alunbopu Ilvisui of p- 3iinboi ag Sutu iaonpoad 314j `szaonpozd jzmod iotpo zo `siownsuoo `pt.z2 oigoaja jjagjtrg oqi ip!m onji -3lut of puno3 si (s)uz ISSS z0Izanuoo s,z0onpozd a14l 3I 11 I Pule OI suOlIMS '619 'PIS 39al ui p0uiuluoo uoiIJoIsip otuouuL'14 pue `32U110n `luzimo jo3 sliunj papuauiuiooaj oqj joauz s0oinos uoprjouaB poloauuooa0lui Joj suz0IsSS a0113nuoo lt'14l swinboi oou uzuzo:) mu oiNUBW 311jOlul 0141 - Xlddu 0£t, uopooS ui possnosip sp upuuis ILjouoO oql puu `saoluaau02 uoilonpui aoj asolp 01 Jull zis are Swols,�s a31JOnu03 J OJ sluoLuzimbaz Xjddns nmod OnTIOLIO 1 stua;sA.q aaPanuoq JaM OPP -joonpoad a14a 01 saoinias k Mjj!0UV anpo0JJa Optnozd of saa14io 14itm Iuauz0azSL junjoiawoo 145nomp Jo s30in3p uotltsuodwoo 3AIJOB0a panojddv joumo uoissiwsuLIal Jo uopt'jlulsul s,nonpold 0141 ,fig papinozd ag ktw uoiloonoo zololej zamod pomnboi joj 1.1oddns an113161321 •pii5 of bolo jlagjreg 0141 tp!m jollmd ui guiltzado ua14m `sluauiailnbad .1010nd .ranlod :OZ c uozjaaS ui pog!3ads sliuzij a14j uigl!m sjolobj zamod umiumw oI uoiltsuodwoo jo lioddns antloUaa jjU apinoad of iaonpOJd 3ql Jo �I!pq!suodsaj a14j si 11 •saolou3 jamod Buipuaj it of mado Xlluaioqui szojl6 uoilonpui `.IVA Jo (uopdjosgu zo) uopdwnsuoo sigl of OnCl •(slium) iomod oiijoa10 luaa oonpoad of zapzo ut (.VA) .zamod oixioaja Ontlolow jo slunouzr 5U ThUA a szo uoilonpul sio;aaauag uoi;onpu/ 0£p t uoYaas uo . nvrauao Jof sprvpuvis uopaauummalul Interconnection Guidelines or Non - Utility Generation Section S SECTION 5: INTERCONNECTION EQUIPMENT REQUIREMENTS 510 Introduction In order to simplify the process for determining the interconnection equipment necessary to operate generation in parallel with the Railbelt electric system, the Intertie Management Committee has developed this section which outlines the minimum interconnection requirements for Producer -owned facilities. 520 Overview of Required Equipment This overview of required equipment and devices provides general descriptions as to the components, including functionality, purpose, and responsibilities by both the Producer and the Transmission Owner regarding ownership, installation, and maintenance. Specific requirements for Producer -owned interconnected generation can be found in Section 530: Equipment Requirements. 521 Metering Requirements For all generating facilities, the Intertie Management Committee requires that "In -Out Metering" be utilized to capture the real power flows (watt- hours) into and out of a Producer's facility. It is the Producer's responsibility to provide, install, and maintain all facilities necessary to accommodate metering. All meters shall be provided by the Transmission Owner at the Producer's expense. Depending upon the specific application required metering may also include the following: ■ VAr -hour metering ■ Real power (watt) demand metering ■ Reactive power (VAr) demand metering 522 Interconnection Disconnect Device The Transmission Owner approved manual disconnect device must be provided as a means of electrically isolating the generating facility from the Railbelt system, and establishing working clearances for maintenance and repair work in accordance with the Transmission Owners safety rules and practices. Page 27 8Z 32 ud •suotlisod posolo puu uado oqj gpoq ui olgloNool oq jsnW . :zag ;yam of ainsodxa puuisglim of pau2isop jo jooad- .iotpnm oq Isnw saoinap Ioauuoosip `suoillolluisui joopino io3 'polundo -2mS aq jsnW °uoilisod posolo zo uado oql ui ioglogm Suptnipui `olgisi^ Xluiuld oq IsnW .ajnlit,3 Xlddns U 30 Iuana agP ui puRq �q pouado oq wo jugj adMj L jo `olquiodo -iamod 3i `pu sired anii IPim Inwoo of joiriado aqj Suisodxa Inogpim olquiodo �Ijutuajxo oq jsnW :sui.iajauz ,�jiii3R3 oqj irou `uotloauuoonjui oql jo apis sJaumo uoissiwsutJJL ag1 uo polmol oq jsnW :aaumo uoissiuzsuuj j aqj f q lt'noiddL zo3 sluomimboi ILoisAgd umuziuiw Sutmollo3 agp laauz Ism saoinap IoauuoosiQ - s}loolpled snumo uoissiwsuujl otp giim sawil IlL ju Po3lool adoN aq isnw (luosaad uagm) olpuuq 2upw3do put ainsoloua aoinap aqZ s,jaonpoad aqj puu woisSs snumo uoissiuz mmiL aqj uaamlaq slallvred )Tojq jo 37w 01 zaonpoJd oql Sq pasn oq jou IiL'gs aoinap Ioauuoosip aqj, - 3wid .ioquznu golims paluuBisop -numo uoissiwsuujjL e grim Pai3iluapi oq IILgs aoinap Ioauuoosip oql •louuoszad siaumo uoissimuril aql of . jj!pgisin puR ssaoou jo asua ao3 paluooi �IiroisXgd aq Isnw aoinap Ioauuoosip lunum aqZ •pasn aq IILgs aaumo uoissimsuujjL oqj Xq panojddu XIi7aoi3ioads saoinap Xluo •saijiligisuodsaz aourualuim pur digsaaumo auznssr put aoinap aqj IiVIsui llugs joumo uoissiwsuuj L oip `osuodxo s,aaonpozd aql IV •juzod uogaauuoa.ra;uz aul fo apis siawto uolsslussuv — l' ayl uo palvaol aq 11vgs aainap pauumulp aq; 'jauMo uozssiuisuv l aqj wo f uolsslumad uanuM passajdxa painAoid ssalun Isasva 11v ul •Ii jurimm of sisixo aznsodxa mil dm luaioijjns `luow2pnf saaliiunuoD jumo2vurW aiiajul age ui `3i paiinboi aq osle (Luz golims ouil dri u `p!J2 uoisstWSUL' l oql of suopoauuoo io3 pins oizloola aqj uzorj u0113auu03sip jo uoijU3i3iaan olgisin apinoid pur `lauuoszad snumo uoissiuisuLzZ 31 11 ,�q algiss000, XIipra.z pur algmnoas aq Isnw aoinap loauuoosip lionumz sitU S uopaas uopvrauaf) i1 -uo)V jof saullapino uoyaauuoa.raiul Interconnection Guidelines or Non - Utility Generation Section 5 523 Intentionally Left Blank 524 Protection and Control Devices Certain protective functions and control equipment are necessary to ensure that both the safety and reliability of the Railbelt system are maintained. While the Producer is responsible for the installation and maintenance of such equipment, it should be noted that the required equipment outlined in this section apply only to the protection of the Railbelt system, not the Producer's facilities. The minimum protective and control equipment requirements for Producer -owned facilities are as follows: ■ Interconnection Circuit Breaker(s) ■ Anti - Islanding Protective Functions — Overvoltage Protective Relaying — Undervoltage Protective Relaying — Overfrequency Protective Relaying — Underfrequency Protective Relaying ■ Synchronization Protection: — Synchronous Generators: Automatic Synchronizing with Relay Supervision — Induction Generators: Speed Matching Relaying Due to the impact that larger facilities can have on the system, additional requirements shall be necessary for such facilities, including but not limited to: • System Fault Protection Functions — Ground Overcurrent Protective Relaying — Phase -fault Protective Relaying ■ Transfer Trip Capability ■ Export Power Control Equipment — Voltage Regulator/Power Factor Controller — SCADA Control (including Balancing Area SCADA Control) — Power System Stabilizer Page 29 OE a •uoij uzojut zatlltnj jo3 OcS uoiloasgnS japun sluowaimbat og!oods atli of j;DjoN •uoiluuiuualap ogloods atlj uo guipuodop `szaztligmS tuaisSs zamod puU `saallozluoD jol0u3 zamod loiluoD uoijuln23g 3SMIoA opnloul XLtu juauzdmbo siq 1, •luatudmba lozluoo zamod lzodxo ajinbat Sm ioonpoad oqj, •,uatuaa.zj?u alp jo suual aouutuzojjod olj!oods oqj uodn 2uipuodop hussooau oq fLw luatudmbo loiluoo leioods `Xltltouj s,aaonpozd otp woa3 iomod jo liodxo zo3 (s)siuowQa SV SullaogM JO /Put' (s)Iuatuaazi?d osb aamod olut saaluo Xvud zatpouu puu nonpoid oqi aaatlm sosLlo .zoq }uawdinb3 joaluoO aamOd :podx3 LZ9 •sivaura.nnbay Tuaurdznbg uolljauuoo.lalul 0£S u011odsgnS of iojoi `sluowwinbai Suipiooaz nj-3turmd og!oads io3 •louuos.iod siaumo uoissiu SULIJI put Sl!.ioglnd SuiouujLs otp trim suoilmiuntutuoo jo oinlLm puLI atutZ . :(•ova `s�a�re� SPIaz an113alozd `sdiij ioVzjq Imo.tto) suoiluiodo luatudmbo aniIo310.1d . :•oja Xouonboij `zamod aATIO - e .z puU ILaa `aSLIIIon su dons sialaturzud luuoiluiodo SoM . :Sutmolloj ;)ql sr dons suopundo jiun Suiwiouai? uo uo'ILwjojul papzooaz apnloui sSol mvp lLluollmodo BuiBBo a }ea jeuoi}eaado 9Z9 •sluazuallnbay ;uaurdlnb_V ` u011oaS of njoi `sluatuaambaa 2uualatuolai olj!oads io3 •soOvino tuais�s 2uiznp siawnsuoo sii 01 aotnaas 3o uoildnuami paguolozd pton16 PUB tuaIs�s It'otz1oala sii aluzado Xpuatoijja of flljoglnd Suiouultg oql mollu of `pazalatua101 aq lluus luauudinbo uoiloauuoomui jo snims atlZ •pwinbaz aq Ipm 32LIllon put (.zamod 3nP01001 puu luai) smolt jamod su dons ultp jo Oupolo ualaZ •,�jiao pnd Outourlug atlj ,�q panozddu l000loid P ui Iaumgo uoileomnumoo L 3o ptr ;)ql tllim poll!wsuLal aq Iltus sal PEA 'Cow `�ouonbwj `,�Iilrnb iamod `aamod antloUaa puU JEW `aiN11I0n) rjup IndIno luvId su Ilom st `suoijoun3 zalloxnuoo pu juatudinba jo snjuls oql su dons solq - e!JUA sapnloui sigL •,(Iizotllnd 3uiouujuq oqi of �I!pob'3 OutIRIauDO s,zaonpozd atll uwoaj sindlno paznsuatu 3o uotluoiuntutuoo atli sanlonui hIOU10131 sluawaiinbaa Buiaojpm pue &J}aw 9Z9 S u011aas uo?jnraua� 11?1l1 -uoN jof sauz1apzng uoyaauuoaralul Interconnection Guidelines for Non - Utility Generation Se ction 5 528 Protection & Control System Testing Capabilities To allow performance and verification of functional testing, the Producer's protective relays and control systems associated with the interconnection shall have accessible sensing inputs or testing terminal blocks, or acceptable equivalents as approved by the Transmission Owner and Balancing Authority. Page 31 Z£ a •uoiloauuooaalui .toj paimbaz sXnjat Wloalozd agj Xq paltaado wgm ino p33lool oq puL uopt,00j sli It Juauno jjnvj ajgUjibInV tunwixuw aqj idnualui of paads pup Xiioedn 2utldnu3mi ivaioijjns an>?g isnw .t33paaq s!q L (q suot�ipuoo llnuj i?ui.mp wolsXs snumo uoissiuzsuu, jL aql uto -ii u0nunu35 s,aaonpotd oqj jo uoiluredas mollu of paainbai si .taVajq imozio panotddv snumo uoisslwsuutZ d (u (s)aalna.ig Imaaij uoi ;aauuoa.ialuI 'I :smolloj Su we suotlullmsui joj sivawojinbat jotluoo putt uopoaloid uouoauuooaalui junu33 oq sao /nap /oJ/uoO pue uoi;oa;oJd -/ue /g M07 I / /euoi;ua /u/ A/ •(Z amR13 pur `aamaa iaauuoasla uoz�aauuoa rams : ZZS uotjaasgnS of .tajaz) suoilullulsui llL lo3 paunbaa st ao loauuoostp junuuw panoiddr ud aOinap;oauuoosip uoi;oauuoojaju/ - aaonpotd agp pur soppuo snotat?n uaamiaq sluautaatgr junjoicaluoo Xulo jo sog!aods agj uo puadap llim `2ui.tal3uz pumop iomod anuOL0I .to jL `(anog -JVA) i?uiaaIauz Xi ?nuo aamod 3AIJOL su gons `sluomimbaz Sutaajauz jt?uoiltppd •5ulaalauz .mog -llum jno/ui si saijijiot?j aoj 2uiaa1auz patinbai wnurtuiw agl Iunuai? ul s;uawaainbad ,6uija;apV •uzaisXs ilogpma agj 01 pauuoonjut o1 iuisodoid Xl!l!otj agl jo sotlsi.tal3ujrg3 agi puL `saauznsuoo juoorfpu jo XI!Wlxoid pue iagwnu agl `uotjoauuoojalui agl 3o uonvool agi su gons siolotj uo Ruipuodop `XJUA Xlew Xlilionj posodoid junpiniput g3U3 IOJ sluauzartnba.i otJioadS •saililioLj Supt?.tauai? ao3 fi.ressaoau luawdtnbo uotloauuoo olut wnurtuiut ag1 aiblis sp.UpuVIS u0i103uu03aaiui agl 3o uoiuod sigl s;uauwaimbay wnwluljV jo uoi;eoi/ddd 7 s;uouie.gnbay juawc#nb3 uoi;oauuooaa;ul 0S5 S uoYaas uOymauag -uoAT jof saiglainng uoyaauuoma;uj Interconnection Guidelines for Non - Utility Generation Section 5 2. Under / Overvoltage Protection This protection is required in order to trip the interconnection circuit breaker when the Producer's voltage level is above or below the Transmission Owners nominal level at the point of interconnection. a) Undervoltage protection (Device No. 27) must be set to initiate a trip of the circuit interconnection circuit breaker when the Producer's voltage level falls below a level approved by the Transmission Owner.. Intentional trip time delays must be coordinated with and approved by the Transmission Owner. b) Overvoltage protection (Device No. 59), in general, must be set to initiate a trip of the interconnection circuit breaker, with no intentional time delay, when the voltage is equal to or above 110 percent of nominal voltage level at the point. c) Specific under /overvoltage trip settings will depend on the location, type, and size of the interconnected generation facility. The Producer must coordinate with the Transmission Owner for specific relay settings. 3. Under /Overfrequency Protection This protection is required in order to trip the interconnection circuit breaker when the frequency varies from the nominal of 60 Hz. Generally, the following trip settings will be required for all facilities: a) Underfrequency protection (Device No. 81U) will be set to initiate a trip of the interconnection circuit breaker with delays and setpoints required to coordinate with the Railbelt Underfrequency Protection Scheme. b) Overfrequency protection (Device No. 810) will be set to initiate a trip of the interconnection circuit breaker when the Producers voltage level raises above a level approved by the Transmission Owner and the Intertie Management Committee. 4. Synchronization Protection a) Synchronous Generators Synchronous generators operated in parallel with the Railbelt electric grid are required to have automatic relay supervision (Device No. 25) to verify synchronism for permissive closure of the interconnection circuit beaker. Facilities are allowed to interconnect and operate in parallel with the Railbelt system when the phase angle difference between the Producer's voltage and the Railbelt system voltage at the point of interconnection is less than Page 33 t 32nd 's2uillas dul pun ouzagos uopoalozd iinnj punoai? aql anoiddu pun maTnW Itngs aaumo uoisstuzsun.iZ aqi `uoilnaado paloauuoonjuT Ioj uonumogpnn 01 zoi.zd 'sgumos diii uo nump uoTssiuzsun.zd, IP!m alnuipj000 pun ouiagos uoilomid llnnj punoJ? 31vudoaddn un apinozd lings nonpozd aqZ 'saTJTlionJ s,jaonpoi.1 aql wo -ij silnnj gons of uopngixluoo snonuiluoo 1igigozd of jopzo ui .zaalnazq 1momo uoiloauuooaaluT oql Jo 2uiddul soluip T pun uzalsXs llagl!LN agp uo silnnj punoiS- o; -osngd sosuos (MIS 'oil ao not ;oaloid sigZ 'soll!gonj lib, ao3 paunbai si uopoaloid lime j punoig uoilaa;oid linu3 punoa f) •S uolloouuooaalul jo wiod aql in uzaisXs llocipla l aql IMM saziuoagouXs goigm to luoo uTnIuTnux pun luowaldwi isnw uopundo ouoln -puns 3o olgndno are goigm sw;)JsXS 'lolJuoo uoilnaado snouozgo"s aaTnbaa lou llim Ailnzaua `uopw;)do lalln.znd paziuo gouxs uinluinuz 01 (a &nJlon ao/pun ivauno walsXs lloglin2l) slnu2is indui -piz2 oijioala oziipn goigm `sUI;DIS is zaJJanuoo aamod szaa.zanuoD Jamod (o q a p pun Jaump uoissTuzsuml oqi Aq Aiiaoq�nd 5uTounln panoiddn 5UPps n Jn p3mmutnuz si paads iolriouai? uagm �?uisojo (aolonluoo jo) ioNuazq iiuuad of las `pozigin oq (Sl 'ON aoTnaQ) guiXnlaa Suiglnu oz paads ingl saimbai aalllunuoD luawanunw ailialul agP `aJo3aaagZ •W;DlsXs llagligd atp glim lalln.red ui 3upwodo uagm pauTnluluw Alosiowd aq louuno uopundo snouo gouxs siolunuai? uoiaonpui of wonquT « dils„ oql of anQ siommoo uoponpul (q uopusuodwoD miZ aansolD aa3pazg aounldaood al2ud -asugd . i?uTg 3SMIOn Suiaoi!uow Amonbaa3 diiS ■ :soT1sTaa1onm to 2 utmollo3 aqJ annq isnw sauzagos 2uiziuoigouA s InnuuW 'algnidaoon on sainp000id luuoilnaado pun pailddu si uoisinaadns An101 papinozd sisng InnptnTpuT un uo panoiddn aq Xnw s'wolst(s gons `aanamoq twisXs llaglind a p tp!m uopamdo paloauuooialui ao3 panoaddn Xllwaua lou on swolsXs 2umuo gouAs Innutw - Jaump uoissimunzZ oqi pun Ai!jogpny Ruiouning aql Sq pag!oods anlnn n S M uo�llvrauaq Qjlyll -uo )v jo sauyapznq uoyaauuoaraJuj Interconnection Guidelines for Non - Utility Generation Section 5 6. Phase -Fault Protection Phase -Fault Protection is required for all facilities. This protection senses phase -to -phase or three -phase faults on the Railbelt system and initiates tripping of the interconnection circuit breaker in order to prohibit continuous contribution to such faults from the Producer's facilities. Voltage- restrained overcurrent relaying (Device No. 50/51V) or impedance relaying (Device No. 21) is required for phase -fault protection. Prior to authorization for interconnected operation, the Transmission Owner shall review and approve the phase -fault protection scheme and trip settings. 7. Transfer Trip Capability Communications Assisted Tripping may be required to allow Railbelt system protection to disconnect the Producer's facility in order to ensure that Railbelt system protection operates properly during system faults or disturbances. The Producer shall provide a dedicated, isolated digital communications circuit for this purpose. Vi. Telemetry and Monitoring 1. Telemetry All facilities are required to have equipment to continuously telemeter data to the Balancing Authorities Power Control Center via approved data communications lines provided by the Producer. Telemetering of generation and transmission data is required to enable the system dispatchers to continually monitor the power system from the Balancing Authorities Power Control Center. As a minimum, the following data and measurements shall be telemetered to the Balancing Authority: • Energy Flows (MWh) • Real Power Flows (MW) • Reactive Power Flows (MVAr) • Voltage at Point of Interconnection • Interconnection Circuit Breaker status 2. Monitoring Page 35 W aSEd 10.1Ju03 181#11Q ;aa i1Q •Z •sanssi pun suoporuisui Inuopn.iado oijioads ioj iojua:) IoaiuoD sailljoglnd 2ui3uning aria giim omuipi000 Iings iaonpo.zd OU •lonaluoo osngo.md iomod agj 3o suuai oijioods agl uo 2uipu3dap sisnq Inuosnas jo `.ipvp `Xlznog un uo alnpagos JdA ao 32VII0n paiJioads soilizoglnd Ouiouning n molloj of pojinba.i aq Xnui ioan.iauoS agZ •spinpunls gggl uigjim 2upi3s .io;on3 iomod agp guiuimuinui jo olqudno aq jsnui ji `pazililn si jolloiwoo .ioion3 iomod n aiogm •spanpunls ggal paaoxa jo 10aui pun `2upung inoglim `suoiiipuoo ;Dwis- Xpna ;s .spun 32nIIon juiod uouoauuooiaiui Inuiuiou oqi 2uiumnumw jo olgndno aq isnui 1! `osodind sigl ioj pozilpn si aoinlnSai aSnJIon n azagM •sliuzil pagioads uigpim 32LJI IozIuoo 0 Japio u .1311011uoo .ioIon3 aamod jo aolnln2ai 30nIIon panoiddn un aaglia azililn of paambw oq �uw zaonpoid ags aagoaluoa jolaug ja,tod/aojnlnWaH 32 n;I 0 A 'I :loniluoo oijioads agp 3o suuai aqi gpim aounpa000n ui Xanss000u oq XLw luauudmba i?uimollo3 aqj luauiaai2V 3uil3ailm uoissiuisuril n Jo luauiaa .12d asngoand .zamod n alnlnuuo3 Al!lua .iagloun pun nonpotd agl azagm sasno iod ;uawdinb3 loj;uo,g JGmOd ;jodx3 111A •soomynisip uialsAs 5uizAlnun ui XIinioadso `s�?ol asagP mainaa 01 lq .5i.i aql an ng Iings Xiuotpnd Suiouning aq.L •(SS:WW:14H) Xup jo auip pun mnp i?uipnloui `salgni.inn p03I0nal Jo3 duims auiil poziuoagou�s SdIJ n apinoid Iings zai?Sol mnp oqZ •sloOml Snlai pun suoiluado snjnls .iapaaq 1inoiio uoiloauuoozalui oql Suipnloui `sjuauiala uialsXs X03I 3o smnls oqj pun `Xouanbaij `s.idA `slInm `sJlon spiooai goigm a02501 MVP IMISIP uinJuinui pun annq of paiinbaz are soijipon3 5uijnaauai? Iid 5 VI VO leuoi;eaadO '11A - sisnq Innpinipui un uo 0311tuiuioD ivauiaBnuvW aiiaiul �q pouiuualap aq Ipm 3uiioliuoui Slilnnb iomod .ioj sluomimboi aqZ suoiliolsip oiuouuzq pun suoilninap .�ouanbaa3 `sllams ao s2ns 02nII0n `asiou InoiAoala `suoiI.ioIsip uuoJannm sn saounganjsip Bons paooa.i pun loalap of paiinboi aq XL uialsSs 2uizoiiuoui aqj `sjuauxajinbaa ogloads aqj uodn BuipuadaQ - s.Iauinsuoo 0 pazanilap aamod jo fI!ILnb oqi ao uiaisXs oialoolo ilzglinZl zip jo aounuuojaad pmpums aqj Ioajjn �las.zanpn uno flilion3 s, .iaonpoid age uioaj indino aqj jngj uoilnoipui uu zo Inilualod n .iaglia si ongi wqi souiuuaiap �i!.zogind Suiouuing 3g1 0.13gm sasno ui paiinbai aq Ipm Suiaoliuoui XITILnb .iamod S u uo mauag 11?gfl-uoN jof sauyapzng uo .qa555535515l Interconnection Guidelines for Non - Utility Generation Section 5 Direct control (supervisory control) of unit output from the Balancing Authorities Power Control Center may be required if the unit is to be dispatchable by the Balancing Authority under agreement. 3. Power System Stabilizer A multi node Power System Stabilizer (PSS) control system may be required to provide necessary stability to the electrical system when system power oscillations occur. The necessity of a PSS will depend on the generator capacity and characteristics, the location of the interconnection to the Railbelt system, and the system voltage level at the point of interconnection. Page 37 8E a$Ud •sisuq Iunp►ntpur uu uo polunisna oq Iltm sluauiannbai luowdmbo agpods `s.iallanuoo lamod io3 pannboi �Iipo►d, j tou opgM :£ 0 1 0 N •sivauzannbaj ogpads io3 L't,'£'S uOIIOzsgnS of ia3a1 :pannbai si ia22oi ujup Iz3i2►p d :Z MON - sisuq Iunpin ► put ue uo possassu aq Ipm puL smaw;mift Iunpuuuoo ogpods uo puadap Iiim sluawa.unbag :1 31O (£ atoN aaS) pajmbag toN uoisiniodnS ,Gulag /m i?uiziuolgauXS o►auwoand s.za110nuoD .zamod paiinbag iuc,Culag 2uig3tuW paadS siotunuag uoitonpul polinbag uoisinladnS ,Gulag /m i?uiz►uoigou.�S opuutoand siotuzauoD odAl jupwiS puu snouorgou,(S (Z a;oN aaS) pajmbag gulfOoZ utuCl Iuuo►tuaado poiinbag AppquduD uoiaumunwwoD UIRG puu aoton I atoN aaS luowdmbg IoituoD JOmod uodxg I 31 aaS guijot►uoW Xl!luno i3mod pazmbag ,Ct►IiquduD ,Glawolal pojinbag uo►toatold tlnu3-3sugd paa►nbag 4ltqudvD dill ia3suuzl pajtnbag uolpoiold tlnu3 punoig pazmbo -d uoitoatold ,Couanbaajjanp paimbag uoitoatoid ,(ouonbwpopun pazmbo -d uoitoatoad a2ualonJ0no paltnbag uo►toatold a9ualon13pun pwinbag ioijua.ig ttnojiD uotloauuoonjul polinbag 2upoioW tno/ul paitnbag suuaW toauuoos►Q panoiddV suoiaulluisul IId lua=jinbag auautdmbg kmwwnS sluauzaimbag luauzdmbg uotloouuooniui S alan.L Aaewwng s;uawa gnbay juawt#nb3 X/ S u0113as uoymouag iOlizill •uoAT jof sauzpapzng uozlaauuoa raluj Interconnection Guidelines for Non - Utility Generation Section 5 540 Voice and Data Communications The capability to make direct verbal communications via telephone with the Producer or the Producer's facility designee is required for all facilities. Voice communications must be provided so that operating instructions or notification of system conditions can be given to the Producer or any designated operator of the Producer's equipment as necessary. Accordingly, the Producer is required to provide a 24 -hour accessible voice contact telephone number to the Balancing Authority. Data communications capability is required so that electronic data and/or operating instructions can be transferred between the Balancing Authority and the Producer's facility as necessary. 550 Intentionally Left Blank Page 39 Ot aied N01103NNO0?J31N/ YO-4 NOU V017ddV 7b' /1 /N/ 'v XION3ddV sa.71puaddV uo vjauaq 11?jn- uoA.ro sauz1aping uouaauuoa.ra ;ur Interconnection Guidelines for Non - Utility Generation Appe ndices APPENDIX B. FINAL APPLICATION FOR INTERCONNECTION Page 41 Interconnection Standards for Railbelt Generation Glossary GLOSSARY For industry standard definitions of electric industry terminology not contained in this glossary, please refer to the IEEE Standard Dictionary of Electrical and Electronic Terms, IEEE Std 100. M ITA The abbreviation for alternating current. Abnormal Voltage Voltage that is outside of the standard nominal voltage level. Ampere (Amp) The unit of current flow of electricity. It is the same with reference to electricity as is the number of gallons per minute when referring to the flow of water. One ampere flow of current is equal to one coulomb per second. Automatic Self - acting, operated by its own mechanism when actuated by some impersonal influence as, for example, a change in current strength; not manual; without personal intervention. Automatic Circuit Recloser (A) A self - controlled device for automatically interrupting and reclosing an alternating current circuit with a predetermined sequence of opening and reclosing, followed by resetting, hold closed or lockout (ANSI C37.60). (B) A relay that controls the automatic reclosing and locking out of an AC circuit interrupter. Automatic Control An arrangement of electrical controls which provide for opening and/or closing in an automatic sequence and under predetermined conditions; the switches which then maintain the required character of service and provide adequate protection against all usual operating emergencies. Available Fault Contribution The maximum current that can be supplied to a fault (short- circuit). Page 43 tv a97od •loauuoo mi jo iuiod zip Ir saouraealo IIL aoj Siguo Sutziaogjnv agj si numo uotsstursucil oql •Iouuosi3d pazijoglnt? Xq poifiim oq soomos nmod algissod iir jrgl puv saoinos nmod olgissod IIR wor3 palt?losl ,fIoialduzoo aq souil ao ivauzdmba agj Imp ivaauai? ui oju palunai? aq uuo uoissiuuod eons ;)jojoq Iit?naad isnw go!gm suoilipuoD •ajil uruzng of snojoOmp slvpualod Ivoliloolo w pazisnuo X-Ilmuou On goigm juawdmbo aagpo ao `sagolims `siolonpuoo `saatm `oi �;turtxoad ;)solo ui awoo of ao tp!m IoLIuoo olut awoo of uotsstuuod ('91TWOM) aauv rval3 •Itnojio cogs tL jo asogl sL Bons `suoiitpuoo It?uuoug, pog!oads zapun sluauno Sutpatq pug `auzp patjtoads v ao3 i?ui,i. o `i?uivw oslL puL suopipuoo 1moiio lt iopun smanno 3uiVa.tq put? Suthuuo `guilm jo alqdro aoinap 3uigoltms d .raalvarg �zna.rz� S Iuautala Ivoliloolo jo uopoauuooaalut ud ;zna rzj •fiitligt?dro gilm SlsnowXuouXs pasn oslr si SitordrD •pal - ea si uzalsAs ao uoijuls `snjereddL `ltnouo uoisstuzsu it `.tauuojsu - exl `autgani `aoiuzaua2 U goigm aoj pt'ol ag 1 (£) `suotIipuoo aainaas 2utlsixo aapun algt?dt?o si li goigm jo wnwixLw agp `sllt?m 10 (VA) saaadutt? -1I0n ui u aAl2 XlluoidXl `aotnap ao `snjuiuddu `autgouw a jo Xjiouduo ags (Z) `paw,ag XInpun 3uiwoo3q jnogjim A=o Ipm aaim u luazmo ouioala jo saaadwu ui luonno jo iunouzr ag,l, (I ) fqzavdvj 07 ,.raayvarg pnoiiD, ooS jaxvarg Ianal iomod ag!oads r of sdajs alatosip ui iolvjauoS r jo SuipLwj palrvo7- -Yao1g •ao.tnos aga XIILuuou st Imp woisXs agp oiuo womno .to/pue 02LIllon aonpoilui 01 331Aap u 3o �I!p t? aqZ paaf -y-?Vg L q, vssolo uopvrauag;lagllvg jof sprvpuviS uoyaauuoajajul Interconnection Standards for Railbelt Generation Glossary Cogeneration Facility Equipment used to produce electric energy and forms of useful thermal energy (such as heat or steam) - -used for industrial, commercial, heating, or cooling purposes- - through the sequential use of energy. Control and Protection Control refers to the methods and means of governing the performance of the generating facilities. Protection refers to the system of devices used to detect abnormal operating conditions and to initiate tripping of apparatus. Converter A machine or device for changing alternating current (AC) power to Direct Current (DC) power or vice versa, or from one frequency to another. Current The flow of electric charge measured in amperes. 0 DC The abbreviation for direct current. As ordinarily used, the term designates a practically nonpulsating current, such as the output of an electric battery. Dead -End Structure The structure on which a span of aerial conductors terminate or transition to an underground circuit. Demand The rate at which electric energy is delivered to or by a system; normally expressed in kilowatts, megawatts, or kilovolt- amperes. Direct Transfer Trip Transferal of a signal to trip circuit breakers at the remote end of a line. Disconnect Device A device whereby the conductors of a circuit can be disconnected from their source of supply (IEEE 100 - 1984). Page 45 9t, ai$d •sjmozio gauLiq uoiinglilsip azoui io auo Sui,�Iddns `uotjulsgns zo niuoo uoiingizlsip uiuuz a ju 2uijnui2iso szolonpuoo jo las d Japaad •oml agj uaamlaq (on uv Ruipnloui) uoiioouuoo leuuougte ue of 3uimo `amonpuoo .iaglour io punoai? of zolonpuoo auo wojj smolt imp mauno d ;ua in j ;lnv j •sa2Ujlon mol pup sjuauno g2Tg ,�q paziaajom.rego `punoj,'? puL (s)asugd uaamiaq jo sosrgd uaamaaq `uuasAs IuoTmala uL uo 1m3aio ljogs Ieuopuaiuiun ud ;lnvj 3 - k2jouo omoolo jo ooanos L of juauidmba jo aoaid zo 1inogo pozi2nuo -op L 13auuoo of luautdmba jo aoaid ao ITnoiio v of ARIIon XiddL" 01, azillaug ramod oujoala aanTlap of posn sw;DlsXs uoilnq!jlsip pur `souTl uoissTuzsuLjj suo,,Lls uot,LjauoS paloauuooaaluT jo ui31sxs agZ pug ClddnS 1v3.z43alV •(zo��.�aua� of jojo - a) •.iomod oialoolo oiui aamod lt?oiuugoow suuojsuuzl lugs auigouw d .ro ;vraua� azgaal� a •uoisTnip pVoi algt'Is Tim IaIILIJLd ui ojamdo of szojuaauoS pajoauuooiajuT salgnuo `juaolad £ XiiuoTcU; `dooap paads 3U •anano 3tjsu3jourego aamod -paads s,aanoW owijd agj jo adols agZ down •uolllpuoo wma s lruuougt ut saonpoid I - egj (•aIo `suoptuodo ioVaaq `uoTjuaaua2 ao puol 3o ssol uoppns `IIntj ` a) Iuana pauutldun ud aauvq rn;s!a vssolo uoymauag jjaqjjvW jof sprvpuv ;S uouaauuoarajuj Interconnection Standards for Railbelt Generation Glossary Flicker Impression of fluctuating brightness or color, occurring when the frequency of the observed variation lies between a few hertz (cycles per second) and the flicker threshold (the frequency of intermittent stimulation of the eye at which flicker disappears). Forced Outage Any outage resulting from electrical equipment failure, a control systems malfunction, a design defect, operator error, or failure of mechanical systems integral to the electrical output of a generating facility. a breakdown of the mechanical or electrical equipment that fully or partially curtails the electrical output of the generating facility. Frequency The number of cycles occurring in a given interval of time (usually 1 second) in an electric current. Frequency is commonly expressed in hertz. Frequency Deviation A change in frequency from 60 hertz caused by a temporary imbalance of generation and load. Fuel A prime movers' energy source. G Gang- Operated A multiple pole switch in which all poles are operated simultaneously. Generating Facility A plant wherein electric energy is produced from some other form of energy by means of a suitable converting apparatus, including the generation apparatus and all associated equipment owned, maintained, and operated by the Producer. Generator The physical electrical equipment that produces electric power. Sometimes used as a brief reference to a Producer. Generator Reactive Power Capability The amount of reactive power (VArs) that a generator can produce or absorb from the electric system to which it is connected. Page 47 8tb a2ud ,Qzavdvj ffuzidnjja;uj •ucajsAS oiawjo jjagj!gd Oqj ql!m �1i1iau3 SuiivaauaB s,aaonpoad zip jo uopaiodo jajjuaud ioj uoiloouuoo luoialoolo juois,igd oqj, uo 3auuoa.ra;uj (V86I g3gl) 'panaasaad Xjjuijuulsgns sdigsuoTlujaa asugd agp tp!m j!noaio kmuzud Sj! Jo 32u110n ao luaaano agp `uoillodoad umoul put aiiuijap u ui `jTnoaio kmpu000s sii ui oonpoadaa of popumui sT imp aauuojsuuai V jawjofsuv ,L ;uawn.r;suj I Q661 - 619 9991) iI!juunb luluampun3 oql jo anlun Suu aql 01111011103 atuoUUUq agP 3o onjun (suu) Oaunbs urow loon oql jo oilua oqj su pauTjap si onjun Slgl •soiuouuug jo oouosaad oqj of anp juauno ao 32u110n 3o anunn OUTS juluompun3 oqj jo uoiliolsiQ uo? lio ;s!a azuoulivH •oiuouuuq puooas oqi pajjuo si ,�auonbaaj juluompunj aqp Ooiml si jugj ,�ouonbaa3 R gllm luouodtuo3 u `oldmuxa and - Smonbaaj juju3TUUpun3 oql jo oldillnw lua ?ajui uu si wqj ,�auanbaaj u 2uinuq ,�jijuunb ao Onunn 3ipoiaad u jo juauodwoo Iupiosnuis d azuour.IvH ,iouonbaa3 ao puooas aad sojoXo Builouap uual aTU PH) z ;.raH H •punoa2 oql puu sao;onpuoo poziRaauo wow ao ouo u3omlog moi3 juauno oTaiaaja jumpualuiun ud ;Inv j puno g luipunoaB anTloajoad pajjuo XIlunsn si sitp .i!noaio Oqj ui juowdmba jo aaaid ao ITnaaio u auau ao uo ouop 8uiag si Iiom Xuu ajTgm ,fJuo popunoiS On saolonpuoo 1Tnaaio `sasodand X13jus ao,d '(s110n) jutIualod luouloaja jo oaaz aqi su ao aolonpuoa u su gjjn aql of i?uiaaajaa ui Thom luouloolo ui pasn uual H puno g •aamod ouloola jo uoiingTalsip oql ao3 pasn `,saapaa3, pauual Slivaauai? `saolonpuoo jo - 3laomiou d PluJ vssolo uo mauag;1aQj!PM jof sprvpuv ;S uoyaauuo,?ja;uj Interconnection Standards for Railbelt Generation Glossary_ The amount of current a switch or circuit breaker can safely interrupt. Interruption The loss of electrical supply to one or more consumers or facilities. Inverter A device that converts direct current (DC) power to alternating current (AC) power. Island A portion of the interconnected Railbelt system that has become isolated due to the tripping of transmission system elements. ( "Local" Island - A portion of the transmission system, often a single line, which is isolated from the main system and energized by a local generator.) Islanded Separated from the rest of the electrical supply grid. K Kilovolt (W) One thousand volts. Kilovolt - Ampere (M) The product of kilovolts times amperes. Used to refer to high voltage alternating current systems. Kilovolt - ampere - reactive (Mr) A measure of reactive power that is required to regulate system voltage. Kilowatt (kW) An electrical unit of power that equals 1,000 watts. Kilowatt -hour (kWh) One thousand watts of energy supplied for one hour. A basic unit of electric energy equal to the use of 1 kilowatt for a period of one hour. Page 49 oS Q •uos .iad p jo uopop lowip agl �q ,�Iiroijvuiojnu -uou polviodo si goiims ioauuoosip Imumu d - iomod 3o ooinos aql uioIj 1moiio p ioauuoosip oa pasn aoinap SUIgOIiMS lU3IUUg3aui 10 Si g3JIMS l oauu ooSip V ga ;iMS pauuoasi 1vnuvn TV •ij.iom Injasn sagsildw000r 1! azojaq palvdissip si jrgj x2nug sasso7 TIRP filiUp anpoi; wouipod aaglo pup `sliodaa oppa `s2uiptal `soauviBolo `summ.zado uoilvis Ilu 2uipaoo3z joj siaags 3pol -osool zo `}looq `oli3 joinduioo V 807 \� 3Nn dlel HOIMS 3Nn dlfl S3HOlMS dOiQinBS 3N 1'l •poddrI si auil aql azagm juiod oql 1p gull Saaamp uoissiWSUUJ L L gjim gull -ui p31pool si jrgj g31ims Joauuoosip d Ufa ;1Ms J013alas auz7 •iinoaio uoijngi.iisip .io uoissiuisupil oijjoolo up 3o szolonpuoo owgj aql st 3o 1gBnogj �Iluu IoN auT7 - iomod QAIIOUa3 i?uiflddns oligm .iomod luaa sgaosqu ioinj .iomod Suipval R 2uinRq pRol V `XIZS.ianuoD •(sJVn) iomod OATIOU'03 i?uigaosqu oligm (slit .iamod Inn sailddns ioloLj nmod 2uippal p gjim aojpaguo2 d - .iomod luai 3o uogoomp alisoddo aqi ui smolt iomod DATIMW uagM sin000 zoiob3 iomod ,ftipval, d .1013vg jaMod 81qpva7 vsso1!) uopv rauaq ;1a41zv1 jof sp rvpuv;S uoslaauuoa ra ;uj Interconnection Standards for Railbelt Generation Glossary Megawatt (MW) One million watts. 10 Neutral The common point of a star connected transformer bank, a point normally at zero potential with reference to the earth. Non - Utility Generation Generation facilities that are owned and operated by a person or company other than an electric power supply utility. 0 Ohm The standard unit of practical unit in resistance of an electric circuit; generally the resistance to the flow of electric current. One -Line Diagram An electrical schematic drawing which represents the phases of a three -phase electrical system as a single line. Online Reliability [The number of unit trips (forced outages) times the unit output just prior to the trip, divided by the number of online hours] collected over a specified period of time. Open - Transition Mode A method of switching generation from one system to another without connecting the two systems. This can be accomplished by employing a transfer switch with break before make contacts (breaks contact with one system before making contact to the other system). Outage A condition existing when a line or a station is de- energized. Output The energy delivered by a machine or piece of apparatus during its operation. Overvoltage Page 51 ZS aged •uoiIt'zaua2 jo ioluaado io/put ioumo agp of siojoi �IjuoidXj siaonpoid uual agp `spRIpuBIS u01130uuooaajul aqj jo jxaluoo aqj ul . 0.1aua pur iomod pouloolo saonpoid ogm auo .raanpord •i?uiplinq u uigpim suzalsXs uoiingialsip .zo `sjinoaio uoiingijlsip Xjupu000s se Bons `XIlvool iomod 3o XIddns aluipounui age ioj s32VI10n zamol gpim palsviwoo se iomod oploolo jo uoissiuzsuLml .zo3 posh a2VJIon XuL :zauuo3suL'zl uoiingi.zlsip r .zo uoilmsgns u jo 2uipuim 02b'110n g2iq oqj st' pa.zapisuoo �IIRU TON iovurud •.zamod anTIOLIO l of tajag •jamod antIoLaa aniIisod ,sgaosgt 1Lgl jojuaaua2 L zo ,S.ianilap,, Imp pRol anilioudro L grim polmoossu si jolovj aamod Juipral„ d - iomod angoUaz aniIisod « saanilap„ Itlgp J E gpim powpossr osp si ioio j io ,2ui22vj,, V u3 QATIMM aniIisod ,sgiosgL,, jugj prol aniIonpui Xliogm .zo XIluTlmd u gpim paluioossio sl zoiouj iomod juiHuj, d •osLgd ui ;Diu luauno pue a &IIlon aql uagm Xjiun si .iolou3 .iamod aq L •osugd uaA? e Jo QSUIIon puu wouno aql uaampq aouajajjip 312uu asL aql jo ouisoo oql si joloLj iomod •jamod wajuddu of iamod lunjou 3o oijuz aqy .io ;avl JaMod - Xsioua Smuuojsuuil zo 2uluojsu jo 31aa Own aqZ JaMod •(oOu digszaumo jo juiod) wolsKS snumo uoissiwsuviZ oql loow sJua0B anijoodsat ziaga jo osogi jo siolonpuoo s,jaonpoad ao peol atp ongm juiod oq,l, uozlaauuoa.ra ;uj fo;ulod •ppS oploala jtagpX aqj of iomod 2uiaanil3p Jo osodznd all; JOJ ao 30 5upundo s,iowolsno agp zoj Xlolos aq XLw uoijuzado Iaiiujud 'Isaan aoin 10 AIilioLI3 SUTIU aua2 aqj 0 1 uz S IiagpuN aqp wojj mold aaglia mo aamod uoilipuoo sup aapurl - ping oujoala llogl!u -d aql of paloauuoo �11ROIJ1oala oligm zolmouag paumo aamoisno u jo uoijuaado oqZ uoyvrado lallvjvd F •paui?isap si uopsonb ui iuowdmba goigm joj ILgl ump zag2iq ao paaisop jugj uugi ragSiq oSMIon vsso1f) uoymauaf) ilaqllv&r jof spivpuv ;S uopaauummajuj Interconnection Standards for Railbelt Generation Glossary Protection All of the protective relays and other equipment which is used to open the necessary circuit breakers to clear lines or equipment when faults or unacceptable operating conditions develop within the power system. Protective Devices Devices used to protect equipment during abnormal conditions. This would include protective relays, whose function is to detect power system conditions of an abnormal or dangerous nature. It would also include circuit breakers or other interrupting devices used to protect the generator, associated equipment, and the electrical system to which the generation is interconnected. Protective Relay A device whose function is to detect system faults, defective lines or apparatus, or other power system conditions of an abnormal or dangerous nature and to initiate appropriate control circuit action. I(N Reactive Power The component of total volt - amperes in an alternating current circuit where the voltage and current are out of phase by ninety electrical degrees. It is measured in units of volt- amperes reactive (VAr), kVAr, or MVAr. It represents the power involved in the alternating exchange of stored energy in inductive and capacitive electromagnetic fields. Although this type of power supplies no useful energy, it is an inherent requirement for all alternating current power systems. By convention, positive reactive power is "absorbed" by an inductance and "generated" by a capacitance. Reactive power transferred over time is measured in VAr -hours (VArh). Refer to Power Factor. Reactive Volt - Amperes (VArs) See Reactive Power. Real Power The component of total volt - amperes in an electric circuit where the voltage and current are in phase. It is also called active power and is measured in watts (W), kW, or MW. This is the electrical power associated with useful energy, including mechanical work and heat. Real power used or transmitted over time is measured in kilowatt -hours (kWh) or MWh. Page 53 tlS OiNd drvpuoaas parvgs •paisnfpU si iUlaa U goigm IR auziI .io `3210110n `qua ino 3o sonlVA aqZ (,'vpag aapaa;ord) 2u�MaS •w;)IsXs jiagitrg aql grim lallu.red ui ,3uiwjodo puv Supoauuoo ao Sliligissod ao Xjiliqdvo ou sLq goigm wolsXs 2upunwo d uials,fS alv rvdaS - woisXs llagliL aqa wozj aamod antaoaa zo Puri of Xliligt, aql inopm 2upriado si jugj uoiltumol) a;vrvdas •sootnaas s,iownsuoD atp of siauuopurxi uoiingijlsip jo s,X- itpuooas aql sloauuoo goigm waisXs wonno Ouptwoll, 02L mol d uialsi'S uoynqu;sla djvpuoaaS •Ouipuim Xjuuziad aql uL'gl aSPIlon zamol U 1LI p3riodo Xlluuuou si goigm jauuojsuuai u jo 3uipuim aql kivpuoaas s - wojs.is aql jo Xouonbatj juruosoi laanivu r of puodsa.uoo Imp soiuouuLq Xq posnluo sagellon.zanp sa ,YvIpon.raAo Juvuos9M •Iinojio oujoala aaglout ui jo oums aql ui aoinap J31qJOUP Jo uoilmodo oqj loojju of jinomo ouloala auo Jo uotIipuoo aqj ui UOTIP!.ren v Xq anpwado si jVgI aoinap d xvpam •ouil L ui jolonpuoo lT3uopippv uu 2uillmsui io `aolonpuoo Xjiorduo zag$iq uipm juawooeldaa sanlonui siqI `SliLoidM.L •auil 3upsm uL ui zolonpuoo aql 2uioel&-d ffuuo;anpuoaay uoipov Xulaa Xq pauado suq 1! iaaju joV;Djg 1moaio L osolo uiu& oZ asopaag •spuooas maj L uugp aa2uol ou slunaami (altpdn) 2upiodai dim `suadduq 1! su paliodal mucl (vlvp) alu1u pva2l vssopo uo mauag;pagpzvy jof spivpuvjS uoyaauuoa.ra ;uj Interconnection Standards for Railbelt Generation Gloss The condition which occurs when a Producer interconnects with a local utility on the secondary side of a distribution transformer, and other customers may also be connected to the secondary side of the same transformer. Short Circuit An abnormal connection (including an arc) of relatively low impedance, whether made accidentally or intentionally, between two points of different potential (IEEE 100 - 1984). Single -Line Drawing See One -Line Diagram. Solid -State Equipment Equipment that contains electronic components that do not use vacuum or gas filled tubes. Discrete semiconductors (e.g., transistors, diodes, etc.), integrated circuits, or other static components such as resistors and capacitors are used for the electrical functioning of the equipment. Note: Equipment that uses a cathode ray tube for display purposes, such as a television or computer monitor, may still be considered solid -state if the other components within the equipment are solid - state. Step -Up Transformer A transformer in which the secondary winding has more turns than the primary, so that the secondary delivers a higher voltage than is applied to the primary. Stiffness Ratio The ratio of system available fault current at the point of interconnection to the full load rated output current of the installation. Supervisory Control A system by which equipment is operated by remote control at a distance by means of some type of code transmitted by wire or electronic means. Switch A device for making, breaking, or changing the connections in an electric circuit. System The entire generating, transmitting, and distributing facilities of an electric supply utility. System Emergency A condition on a utility's system which is likely to result in imminent significant disruption of electric service to consumers. or is imminently likely to endanger life or property. Page 55 9S a uopvatpuj du,L sauij uoissiuzsuBJI are anogg Puy AN 69 PONI sauij `WOISAs uoissiuzsuPz; .iomod uu}jsvjd aqp ui Xjjvoid,�,L •02RIjoA Xg auij uoiingizlsip le woij pogsmSupsicj •uoissiuzsurai aamod oMoaja joj pasn auij d auzj uotsszursuvrl '(V861 gggl) Suiidnoo oijau2moija3ja jo onsisomola jo suvauz gig zagjout of joionpuoa auo moz3 pauajsurij Xjtprai ag (Luz puu Ioauuoosip L jo Suivado aqi su gons `uoilwado 8uigojims �q ao `11ne3 L `axojls 2uiujg8ij u Xq pasnro ag um sluaisuuil IPoq ao `luauna zo 02NI110A 3o uotIipuoo ajR1s Xpe3js aqj woij 35u1Lgo d ;uaisuv ' L •Iuauna put a &IIjoA Jo anjLIA Jo so2uvgo giim XjjLnsn `Xouanbaij auzvs aqj w slinwio impo aaow jo auo uzoj X2joua ouloata suuojsuUij uoilanpui atlau2mo rojo goigm ui `surd 8uinouz Xjsnonuiluoo Inogjim °aainap DIJ13 ud iaw.iofsuv r,L •u011noj 310tual L 01 uoiJUooj ,iUjaa aqj woij IBU&S dui a p iiuzsuuai of pasn si jauurgo uoilmiununuoo U goigm ui dial alowai jo uuo3 d 41"L iafsuv L 1vjuawivpunf fo apm!jdwin fo aivnbs °1o00iX soiuouunq 11v fo sapnlildwv fo sarvnbs fo wins '(Z661 gggj) ImuauzrpurU agp jo Iuaond L st possazdxa `Aipumb juluauzL'punj aqj 3o anjvA suu 31P 01 lualuoo oiuouuuq oqj 3o mILIA (suu) ajunbs mow looi zip jo oip'.i ag,L (QHS) uoYroIS?a azuour rvH IVIO 1 •aopaiap Sirwiid aqj woij oomisip v ju palaidjolui ag of juQtuoinsraui aqj sliuuod Imp jauuugo uoimiununuoo e jo pie aqp glim juauzaznsuoW (8uummala,L) d4au'dia,L •gojjmS joloajaS ouig aaS •auij snump uoissiuzsuLj L L, olui sdvj auij dul oqj angm aorjd oqj it auij dul L ui palmoj Si Imp golims Joauuoosip V gajzMS auij dvL Z vssolo uopvrauag jjagj?vM jof sprvpuviS uogaauuoa.rajul Interconnection Standards for Railbelt Generation Glossary A display or indication that a circuit breaker has tripped. This indication can be in the form of relay targets, annunciator alarms, sequence -of- events recorder logs, SCADA alarms, etc. U Undervoltage Protection Upon loss or reduction of voltage, the protection device which interrupts power to the main circuit and maintains the interruption. Uninterruptible Power Supply (UPS) A power conditioning and supply system that provides a continuous source of power to equipment (e.g., computer systems) during short-term power outages or surges. V VAr (var) A unit of measurement of reactive power. It is an expression of the difference between current and voltage sine waves in a given circuit where: var = 4(va) — ( watt) 2 Volt The difference of electric potential between two points of a conductor carrying a constant current of one ampere, when the energy dissipated between these points is one watt. Analogously, this is comparable to the pounds per square inch pressure in a fluid system. Volt - Ampere (VA) Page 57 8S a &'d - OWIJ JOAO aamod luoi -noolo spaooai zo/pur sainsuow uatum luaurrulsui uV .ralaN .rnoH .inog jo poind t aano pownsuoo ao paonpoid (slirm) aamod ouloola luai jo amseaw d (VAi) inoH ;vhi - aamod ouloala pai jo iiun aql si sluosaadaa Ilum agP `suual luoixloala ul •(Is) sIiufl 3o uzalsxs lRuoiituralul agp ui i0mod jo 1iun oql, nvAi MR - .1ojv1au3i? aqj 3o 32LI110n lndino aql sioopt urns ui gotgm liuipuim plai3 iolt'jauag aqj olui OuimoU juauno jo junouzu oql slo.riuoo jRgj rojuln2oj ai?UIlon U Suisn pagsildw000u si sigZ - onit'n pauiuua;apaid L 01 a &IIlon leuiuu01 JOjuJauaS Jo loaluoo agZ uoyv1nSag a8vllon - sondm -110n ui iomod luaauddu oqj urgj ssol si silum ui aamod orul agp `juaiino puL 32LI110n uaamjaq aouaaajjip asugd Xur si aaagl ranauogM - Xuu 3i `aouaaajjip osugd a p of aouaaajai inotpm sondwu pur sjlon 3o ionpord aqp o; lenbg - lmoaio juauno OupRurall, uu ui aamod waauddr jo iiun V vssolo uo ymauag ilaql!vM jof sprvpuviS uoz;aauuoa.ra ;ul Interconnection Standards for Railbelt Transmission Table of Contents Section 1: I ntroduction ......................................... ............................... 4 110 How the Standards are Organized .................................. .............................. 120 Operational Policy for interconnection to the Interconnected Railbelt Electrical System .............................................. .............................. 140 Parallel Operation .......................................................... .............................. 150 Islandin 6 Section 2.• Interconnection Process and Application Procedure............ 7 210 Objectives ...................................................................... .............................. 220 Authority ........................................................................ .............................. 230 Process Review and Responsibilities ............................. ..............................8 Section 3.• Interconnected Operating Requirements ............................ 94 310 Inspections and Approval for Parallel Operation .......... .............................14 320 Discontinuance of Parallel Operation ........................... .............................14 330 Islanded Operation ........................................................ ............................. 340 Voltage Requirements ................................................... ............................. 341 Voltage Levels .................................................. ............................. 342 Voltage Fluctuations ......................................... ............................. 343 Voltage Regulation and Reactive Power Requirements ................16 350 Intentionally Left Blank ................................................ ............................. 351 Intentionally Left Blank ................................................ ............................. 352 Operating (Spinning) Reserve Requirements ............... .............................17 353 Non - Operating (Non - Spinning) Reserve Requirements ............................17 360 Harmonics ..................................................................... ............................. 370 Power Factor Requirements .......................................... ............................. 380 Coordination with the Railbelt Protective System ........ .............................18 390 Maintenance & Testing ................................................. ............................. 391 Interconnection Equipment Maintenance ......... .............................18 392 Protective Systems Functional Testing ............. .............................19 Section 4. General Requirements ........................ ............................... 29 410 Design Requirements .................................................... ............................. 411 Design Documentation and Information ........... .............................21 412 Protective Systems and Equipment ................... .............................22 413 Railbelt System Modifications .......................... .............................23 Page 1 Z aged kmununS sjuawazinbo -d wowdinbg uoiloouuooniul Bain qa ag saigns S aigv,I. W--* ......................................... ............................... .......................Gesso /J py uor/oauuoo ia;u/ joi uoi;eoi /ddd /eui4 g KlpuaddV gg•••••••••••••••• ... *......... uoi;oauuooja ;u /joj uoi;eoi/ddd/ei;iu/ •d KipueddV 8£ .............................................. ............................... �Ig lia �Iluuoijuajul 8 £ ............................... ............................... suoilmiunwWoo ejuQ pum aoion ....... sluouzaimbag juauzdinbg umpouuoonjul 6Z ..... ................... saijiiigvdvD 2uijsaZ w;Dls,(S IoiluoD N uoiloaloid 8ZS 8Z............................. .....................luouzdinbg ioxluoD Jannod Jj odxH LZS 8Z....................................... .......................2?ui23o-I ultQ Iruoipund0 9ZS 8Z....... ............................... sluauzazinba -1 8ui.zoliuow pur kilauzaia,L SZS LZ ...................... ............................... saoina(I IOJIuOD PUB uoi130101d bZS 9z ... ......... szauuoJSULJI. £ZS SZ ...... ..... aoinaQ IoauuoosiQ u01133uuooJOIUI ZZS SZ ................................... ............................... sluomazinbo -a 2uliolow I ZS SZ .............................. ............................... wowdmbg pomnbo- a Jo nnainaanp SZ................................................................. ............................... uoilonpoijul 9Z••••••••••••••• •••••••••••sluaweinbeiluewa!mb3 uoi ;oeuuooja ;u/ � .................. ............................... ............................wig lio Xiimoilualul � .............................................. ............................... �ifl I3a �ii�Uoiluolul £ Z .............................. ............................... sad - CIion WQISSS PirPutiS lzt £ Z ......................... ............................... uwlssS jiagpwH-- uopLuuojul u2isaQ OSS Ot 0£S OZS 019 :5 uo1 1009 0£V OZt uolsszuusuvr,L ilaqllvy jof sprvpuvls uopaauuoaialul Interconnection Standards for Railbelt Transmission Figure 1: Typical Secondary System Interconnection - Facilities ............................65 Figure 2: Typical Primary System Interconnection - Facilities ... .............................66 These Standards are subject to revision, at any time, at the discretion of the Intertie Management Committee (as defined in the Railbelt Operating Standards). This document is not intended to be a design specification. Page 3 t, 3210d •uoiloauuoojolui jt,.iauaS aoj s5umos uoiloaloid put, juauidmbo paimbaz ag1 3o main.iano It'lawS t, summoo s ;uamwinba?1;uawdznbd uopaauuoma;uj :S uopaaS - saijiji 3 t , 3 uoissiuzsut,al 2uil3auu0oialui SuIPJR53i uopuuuopi u2isop put, swauiaambai u5isap Suipnjoui `uiajsxS It,oialoaig jiagp1uX papmuoonjuj aql glim 2up33uu03aalui .io3 swauiaambai jujoua2 agi ssaippt, s;uausaimbad 1mauag :t, uopaaS •uiaisXS jt,oizioajg llogpt paloauuoonjul oql pm jajjujud ui 2upwado Xlijiot uoissiuisutul hut, of XIddu jt,gl sluauiaiinboi put, `siiuiil timpo It,uoilLuado oqj suit,juoo Pya;uj 2uymadp pa;aauuoaaa;uj :f uopaaS •spzt,put,ls asagj 01 saoipuaddu st, popnjoui are uopoauuoomui zoj suouvoijddd •pauit,lgo si uoilmado p0133uu0013Jui .ioj uopuzpoglnt, (p put, `aaump uoissiuismil jo/put, Sliaoglnd 2uiout,jt,g aql grim paIvuip .100o air sloafoad uoiloauuooiajui (o `passosst, are sjuauiannbai uopoauuoomui oipoods (g `pass000zd are suoilt,oijddt, (t moq jo 2uiput,jsnpun ut, grim lut,oijddd agp sapinoid uopos sigp `soilspoloriugo sli ui onbiun ag Iiim jusodoid got,a alight •pajuawoldwi put, pouiuu 31ap on uoiloauuoo.malui ajg pi pu>? ajt,s .zo3 sluauiaambw oijioads aqj goigm g5noRp ssaooad dajs4q -dajs oql jo uopdiaosop t, glim smolloj sainpaao rd uounazlddV pun ssaawd uoyaauuoa ra ;uj :Z uopaaS - SWOIsXs uoissiuisut,il 2upundo- jollund put, Buiput,jsi hwoduiai gpog aoj soilspajot,.it,go put, sidaouoo It,uoijujodo `uoiIEUUOJUi X;331 suit,luoo osjt, uopoas sigl •uiaisXS It,opmIg Ilagpma pajoauuooialuj agp grim uopoauuoo.z m joj sjt,sodozd Suipm2w Xoijod s,aa;liuzuioD juaui0sum w ailialul aql Jo mainiano ut, sapinoid uo 3npo4uj :I uopaaS •juauinoop 31aldwoo oql uipm uopoos got,a jo Xmuuuns t, sluasaid uoiloas sigl uo uolss dof sprnpunis s,jjogj!uS aqa jo snooj put, odoos aql pums.iapun aawq of zapzo ul •uialsxS jt,oi.iioajg ;jzgpvN paloauuomolul aql glim lut,jd uoissiuismi Bons 2uijoouuooaajui zoj sjalauit,.md 2upundo jt,omgoai put, sluauiaainba.1 It,aaua2 aqj UmIUO3 sprepuuls asaq.L - ( aq.L„ Io ,P!JD aqj„ ` « uialsXS poinoaig il ` «jiaglit oql,, ` yopoauumiziul ijaglit,2l „) ppi? uialsXS it,oploolg IiagpuN paloauuoonjul aqj uo put oa Xli31.113010 jiuisut,jj o; s0111luo autos jo aiisop agp 3ziu20031 sailiiilfl aq L paz1ue,6a0 aae SpaepueIS aqI m Ott Nouon0OUN1 :I N01103S uozsszumumi j ;1541znd .ro sprnpun ;S uopaauuoa.Ia;uj Interconnection Standards for Railbelt Transmission 120 Operational Policy for interconnection to the Interconnected Railbelt Electrical System It is the operating policy of the Utilities to provide authorization for transmission facilities to interconnect and operate in parallel with the Interconnected Railbelt Electrical System, provided this can be done without adverse effects to personnel, equipment, or system operations. The power to grant such interconnection authorization is delegated to the Intertie Management Committee. Such authorization is governed by and subject to adherence to the Alaskan Railbelt Operating Standards. This document provides the general Standards and requirements to make such interconnection and operation possible. All interconnected entities will be subject to the requirements of the Alaskan Railbelt Operating Standards as adopted by the Intertie Management Committee at the time of interconnection In these standards, interconnection is defined as the electrical connection of transmission facilities operated at a nominal voltage of 69 kV or greater. Parallel operation is the condition where transmission plant operates while electrically connected to the Interconnected Railbelt Electrical System. Under this condition, real and reactive electric power can either flow from the Interconnected Railbelt Electrical System to the transmission facility or vice versa. Within these standards, the term `Provider' is used to refer to the owner(s) of transmission facilities, or agents acting on their behalf, who have been authorized by the Intertie Management Committee to interconnect and operate transmission plant in parallel with the Interconnected Railbelt Electrical System. Also in these standards, an `applicant' is defined as an individual or party who has applied for the interconnection of transmission plant with the Interconnected Railbelt Electrical System. The operation of transmission plant in parallel with The System poses important safety concerns for personnel and equipment. The safe, reliable operation of the Interconnected Railbelt Electrical System is of the utmost importance to the Intertie Management Committee. Accordingly, any interconnected transmission facility must meet all applicable federal, state, and local safety codes and regulations, in addition to the specific Standards and requirements contained in these standards, and, the most current version of the Railbelt Operating Standards as adopted by the Intertie Management Committee. The Intertie Management Committee requires those applying for interconnection to obtain the services of an engineering professional, who is expert in power system analysis, the design of wiring and of protection and controls systems, including control and protection systems for transmission equipment interconnected within small stability limited interconnected electric grids. Electrical interconnections are inherently complex systems in terms of both design and operation. Each proposal to interconnect to The System will be unique in geographic location, operational characteristics, and impact to the interconnected Page 5 9 aft'd •uialsXS Ieoiijoalg liaglie2i ail jo .red poiopisuoo XIleuuou Inq `uulsXS ail,L jo is-3i ail woa3 XIieoiMolo pamiedos Xpieaoduial uiaisXs leoimolo ail 3o uoivod a of uoilezisiauo suiulmulm alium u01133uu03ialui ail uioaj sale.iedos jueld uoissiwsubil s,iopino'd ail Xgazailm uoilipuoo ail salouop (jiuipuelsi„ jo) uoilmodo popuelsi `spiepuels osail jo ixaluoo ail uiulitlk ,641pue /S/ 05t •uoijipuoo Suileiado sill iopun algissod si suialsSs oml ail uaamlaq mold iomod aniJoeN pue leas Xem -o `spzom .zailo ul •uialsSS aii,L oJui f;iti3e3 s,.zapinoid ail uio.IJ JO /pue Xaiiioe3 s,.iap ail of uiaisXS ail,L woij mol ueo iamod oi.ijoala `uoijipuoo sill .iapufl •w;)IsSS leoiajoalg liaglie2I pajoouuooiajuI ail of paloauuoo �Iteoialoala alium sale.iodo jueld uoissiwsuaij ongm uop!puoo ail se pauijap si uoijeiado Iaiiejud 'uialsKs ieoi.iioalo liaglie ail uiim uoileiodo lolleied 3o uoiloauuooiajui jo sueaui Sq algedeo XIleouloalo puu OZI uoiloaS jo swaurazmbai aul Suiloow uzajsSs due of soildde spnpuuIS as3gL uglleaadp /a / /eaed O#t •spiepuels asagl 1aaui of paau pinom sailipaq jo spud io sailpiae3 paialle �filuvayluSis io MaN •paiaglu3pueil aq of sal I lau3 luuoiluiado 'Nuilsixa -aid Bans aziugoaai (pealj!aads sp mpuels asags •spiupuels asagl of aiagpu of aiqu aq lou feui sailillau3 iaplo Xuuui pue sapeaap 3o asinoa aq; iano do Ijinq uaaq seq uialsSS aql ;uql paziuNoaai si II -jueoildde ail pue aaiiiu woD iuowoSuueW 3unjul ail tloq 3o suoije0iigo pue sjil&j ail gsilgelsa of isixo vqj slu3mooige Xue 2ui.Kj!Pow se porulsuoo aq jou Veils maurnoop siu,L wouuoonjui of .�ji .iorine ail uiLIgo of zapio ui low oq jsnw Ieil osail of uoilippe ui sluawa.iinbai anvil XuLu sail! .ioilnd �?uioueleg pue uoiloauuooialui .iO3 spaepuels olgeid000e uinuiiumi wosaidoi spiepuels asail `uiei?e aoup •pommumw si jIaglie2I paloauuoonjui ail jo amumiojiad algeiiaz pue a3es aril jell ainsua 01 lueoilddd ail ulim liom of si weld uoissimsueil 2uiloauuooaajui sp.iemol Xgdosoliud 1I au.L 'sailililfl ail Xq poiriodo jo pue paumo saoinosai Smpnloui `uialsXS ail,L uo saoinosw uoissiuisueil Suilleism pue Ouilunlena ui XIdde Ilim aa��iunuoD juauia2eutW xv3jul ail Ieil sjuauiaambai put spiepuels uinuziuiui ail sluosoidol spiepuels asoill ui paummoo sluawojinbai oqj jell pajou aq pinogs 11 wiloauuoonlul lloglie2i ail slim uoiloauuoo im algeilaj pue ajes a joj uoijeziaoilne uielgo ueo jueoildde ail iloiilm Xq pogl3w luaipadxo inq qi?noioil e apinozd of si ssaoo.id uoiloauuoonjui jIagiir -d ail jo osodind ail,L •sluouiaambai aoejiajui Xlililn pue Lmiajijo Ouilemdo Ieoiuiloai og!oods ail auiuuajap 01 saausisop Mail jo �IizoipnV Suioueleg ajeiidozdde ail pue aajjiuiuioD juauiaseueW oilialul aql Xq pozXILue oq `aao3aaoq `Iiim slesodoid IId 'Pij$ leoiijoalo uoissimsuv j ;Iaql!v2f jOf sprvpuVIS uoyaauuoajajul Interconnection Standards for Railbelt Transmission Of primary concern are safety and reliability issues that may be present to The System and its personnel under islanding conditions. Maintenance personnel must have the assurance that any section of The System that has been de- energized and is under a hotline order or working clearance will not be re- energized until there is confirmation that they are physically clear of The System. Under an islanded condition, such assurance to personnel must be provided by the transmission facility following the appropriate Transmission Operators' switching and clearance procedures. In addition, appropriate System frequency and voltage must be maintained within the Island. SECTION 2: INTERCONNECTION PROCESS AND APPLICATION PROCEDURES 210 Objectives These portions of the interconnection Standards contain an overview of the process and required procedures to interconnect Provider -owned transmission plant with the Interconnected Railbelt Electrical System. It also provides both administrative and technical Standards to assist the applicant in obtaining such interconnection in an efficient and consistent manner. A Provider intending to operate transmission plant in parallel with the Interconnected Railbelt System is required to complete an "Application for Operation of Provider - Owned Transmission." The time required to complete the process generally depends on the complexity of the proposed project. The applicant must provide the appropriate Balancing Authority and the Intertie Management Committee with a complete design package, including accurate machine modeling data in the PTI- P /SSE format and system control and protection settings, so that the nature and extent of system integration requirements may be determined. • As a rule of thumb, the smaller the proposed transmission system (as a percentage of the total system transmission plant) the more limited the design review and study requirements will be. The review of the interconnection facilities and analysis of the impact of the proposed interconnection on the Interconnected Railbelt Electrical System will be evaluated based upon preliminary power system studies. Several of the process steps may be satisfied with an initial application, based on the detail and completeness of the application and supporting documentation submitted by the applicant. Additional, more detailed and rigorous studies may need to be accomplished depending upon the outcome of the preliminary system studies. The Balancing Authority and the Transmission Owner will clearly identify its costs related to the applicant's proposed interconnection. The applicant will be responsible for full payment of the costs the Balancing Authority and Transmission Owner incurs as a result of the applicant's proposed interconnection. Page 7 g a2vd •.iouuuw snoilipodxo put olquoseaa r ui uopoouuoozajui ao3 uoiwztaogjn apinoad puu liosodoid s,luvoilddV a p mainaa 01 XI!JOgpnd 2uiouvlLg pur `numo uoissiwsuLjjL `0311iuziuo:) luauzaSrut1W apniui oqi mollie of fizessaaau sdals pur uoilLUuojui aqj jo Suipuelsaapun ur glim juvoilddd aql apinozd of pouSisop si ssaoozd 3ulmollo3 oql sa11!1!gisuodsoy pua M ain ay ssaooad 0£Z 'spirpumS Ilogpu I paidopr zaq ;o fur su llam su sp upums osa p ui pauimuoo siwwojinbw aql gltm Xldwoo Ism uzalsxS luoizpalg llogliL oql gllm lallu.ud ui luuld uoisstuzsuutl alvaado put loauuooaalui of 2uliTsop Xuud Xud •swou winbai lonuoo soil!joglnV 2umulug oql puL sluow3iinboi puu sp upuuls u0113auuooaajui luuJolui saaumo uoissimstmil alui.zdoiddt aqp gptm .ildwoo isnuz sluauxannbaa u0113auuooialui llV •aoinaas olquuosuzi puu luomgjo `alunbapt `aJUs apinoad o1 uoiloauuoonjul Ilogpmd aql uigptm saililiafl paluogpigo aql satmbw aotnJas ILIOU13013 jo ilddns aql nano Xjumpnio i?uinL'q Xou32n Sioluln2oi alms aql 411joyind OZZ uoissimsumij jjaqjjvMtof sprvpuvls uo lauuoa rajul Interconnection Standards for Railbelt Transmission B. Data Collection From the initial communication, or subsequent Variable, meetings with the Balancing Authority, the depending on applicant should have a clear definition of the project. required technical data and information regarding the proposed interconnection. To help expedite application processing, the Balancing Authority will also provide guidance as to whether both the Initial and Final Applications should be submitted before commencement of application processing. To note, additional information may become necessary during Step 2: Application Processing The Balancing Authority will coordinate with the applicant, in an expedient manner, to resolve any additional information issues. C. Initial Application When the applicant files the completed Typically 10 Submittal and Review application, the Balancing Authority will business days. perform a brief review of the submittal to determine if any additional information is required. Actual costs associated with study and analysis of the proposed interconnection will be borne by the applicant. The applicant will be responsible for up front payment of the estimated costs associated with application processing, study, analysis and reviews of applicant data including administrative costs. Estimated administrative costs will be paid at the time on initial application filing. A deposit in an amount equal to the engineer's estimate of study costs will be made at the time of final application processing. Actual charges will be billed monthly against these deposit amounts and periodic additional deposits may be required depending on the requirement for additional study due to study results or scope changes. Within fifteen business days of receiving the application(s), The Balancing Authority will respond in writing to the applicant, noting receipt of the application. If no discrepancies are noted, application processing will begin upon receipt of processing fees from the applicant. Page 9 01 a &d •spiupupjs asaga ui pouiilno swomwinbaz Iunwi? oq; oa uoilippu ui s;uotuojinbw 3i3roods Xuu 3o luauzssossd (p pouuop-3d oq oa on soipnis papuudxo jo satpnas snojo2ij oiow goigm of Ju31x3 oql uo oouupini? 2uipinoid pup szaumsuoo put sailiiiot ;iagiiuW uo OAUg IIIM Ioauuoo.za1ui posodo.zd aqa jugj joudwi oqj ssossu 01 `maina.z joudwi tiututuijoid t, i?uiuuo3.zad (a stsAit,ud 2uilu2t ;iti i?uilsixg pup stsXILuy luaunj linuA aiquiipnd `sisfiuud X;iltquis luoisuti L `sisXluud mo13 l3mod :fauutwitaid oa paliwii jou inq 2uipnloui •paimboi saipnls uoiloouuoojaaui tipuiwijzud 3o aouuuuojjad pup odoos aqa 3o uoijuuiuuajaQ (q .0', dais ads) •SXpp saa3 iuiss000ld stsXILuu pup Xpnis fawiurtiaid .zupuatuo 06 Paaoxa pup QAIIUJIsiuiaipp paIuWilsa Jo auauzXt,d (n 8uzssa00rd of IOU XjjuoidXjL :sanionur 2uiss000zd Iutliul uotjnaz1ddH jz zipu1 • y fluiss000Jd uoi;egllddy :Z da ;g uoissimsuvil ilaqllvy jof sprvpuv ;s uopaauuoarajuj Interconnection Standards for Railbelt Transmission B. Final Application Final application processing generally involves: 180 days -1 Processing a) Deposit payment of estimated additional calendar year study and analysis costs to be performed by depending on the Balancing Authority. project scope and b) Scoping and performance of complete and resource rigorous system analyses and studies, as availability required, to assess specific interconnection requirements and necessary system modifications; c) Determination of facility- specific operating parameters; d) Determination of specific telemetry and control requirements; e) Review and assessment of applicable code and standards issues associated with the proposed interconnection. f) Review operating terms of any Power Sales Agreements and proof of acquisition of ancillary services. g) Performance of required baseline testing of system response and recovery parameters - voltage, Frequency, stability etc. at or as close as practical to the point of Railbelt Interconnection for comparison to commissioning tests. C. Response to The appropriate Balancing Authority will provide (Duration included Application a written response regarding the proposed in Initial/Final interconnection. This will include notice of any Application facility- specific interconnection requirements, and processing time) will address any outstanding issues or cost items which the applicant may be responsible for. Step 3: Interconnection Design Review & Coordination Page I 1 Z I a •sollird uodn luapuadaQ •algntlai pun alunbopu ojus si uopoauuooralui agl lugl oinsua o 2upsal luanbosgns uuopad of puu uoilorulsuoo gltm paaoord of luuoilddu oql smolln luawooi2t sigl `Xlltpuassg •luaUJZZJ2 l uoiloauuoo.ialui luuoisinozd aql urn uor oql 3o uoilo oziloglnn lltm Al!ioglnd 2uiouulug oql `(fuvss000 sn) suotluo!j!pow walsxs glim paluroossn slsoo Iiu suaq llim lunoilddu oql lugl luawaaj,3u ualliJm pun `ui?isop lnug s,lunoilddu oql jo lnnoiddu glirn luazuaa.18V uot1oauuooraluj Inuolslnord •d aoue;daood pue `uoi;oadsul `uoi;ona;suoa : y daig •loa ford jo odoos uo luopuodop `alqullt'A •paaooid uno uoTlorulsuoa pun `Xli.roglnV Sulouulug aql pun luuoilddd oql uaamlaq palnooxo aq uuo ,luowx)j2V uopoauuooniul luuoisino.zd, u `u21sap uoiloauuoo.zalui luui3 oql anorddu aalliwwoD luawai?uuuw atliolul puu Xiizoglnd 2uiouulug aql ialjV •uorluzlluui3 aapio 31iom of .roiid lunoilddu aql of papinoid oq Ilim aluwilso lsoo fauumlaid d •luuoilddd aql of 3 1qulllq `suoiluoi3ipow asogl puu �liaogInV sulounlug aql Kq paluiliui aq Ipm Niom Bons `uorloauuowalui posodold aql alupoww000u of tinSSaoau Olt suolluog!Pow walsAs JI •suoilu3i3iPow walsxs kmssaoau ,Cuu pun `(aalliwwoD luawa2umw arl.zalui pun �li.zogjnV ,3utouujug oql glim) uopuuipl000 alnpogos loaford `mainar u�?tsop .ro3 olgisuodsai `jo2uuvW loofoll u ugissu llim Cli.rogInV 2ui3uning aqZ •u2is3p luui3 polliwgns agl 3o uoiluutpa000 puu mainaa soil!ioglnV Surouning aql sanlonui arnpaoord sigy •aftloud u2is3p luui313nip oql ui A.rnss000u luoluoo og!oods uo uotliutJap apinoid u011nu1p ooD pun naaznad uS1sda lou19 g uozsssgursuv l ;1agllvy jof sp rvpuviS uoy3auuo3 ralul Interconnection Standards for Railbelt Transmission B. Construction and Final Inspection The applicant may proceed with interconnection construction, coordinating with Balancing Authorities' project manager for periodic inspections, and final interconnection inspection. Periodic inspections (and final inspection) will be performed, at the discretion of the Balancing Authority to ensure that that the interconnection facilities meet the specifications of the approved final design. C. Final Acceptance Following the completion of construction, The Cost Reconciliation Balancing Authority will authorize and Ancillary interconnection functional acceptance testing Services Verification (commissioning), as needed, to ensure that the protection system set points, synchronizing capabilities, telemetry and alarm outputs, as well as, power quality are acceptable under the full range of facility operating characteristics. All Equipment will be commissioned tested in accordance with the Balancing Authorities current accepted commissioning practices and under the direct observation of the Balancing Authority's assigned technical personnel. The Balancing Authority will be provided with copies of all commission test records. Prior to provision of the Final Interconnection Agreement the Applicant shall reimburse the Balancing Authority for all costs associated with application processing, and/or system modification work orders. Prior to provision of the Final Interconnection Agreement the Applicant shall provide agreements (filed with the RCA, if necessary), insurance and/or bonding fully detailing and guaranteeing the ancillary services acquired in compliance with Railbelt Interconnection Standards and the requirements of the Balancing Variable. Variable. Page 13 V I a uoi;eaadp Ia11eaedJo aouenui;uoosi0 OZ£ •uoiloauuoonalui aul tllim palnioossn saoinap no Iuauidinbo s,napinond aul Jo 2uilsol ssoulim uuo3nad io `lsol `Ioodsui of lqi?tn agx annasan ,fltzoulnd Suiouning pun `naumo uoissiuisuunZ `aolliuuuoD IuowoSuuvW opialul ;)q_L aalliunuo:) Iuau[32nunW aiIJaluI aul uzonJ Innonddn uollinm Iuui3 Inogj!m sailijionj uoissiutsuunl jo uoilnnado Iallnnnd oouounuzoo lou �nui napinond 3gjL uoileaadp laIIeaed JOJ Ie^ o idd y pue suoi;oadsuI 0t £ •sisoo paluioossn IIn jo luaut.�nd puu uopoauuoosip oluipouuui on sluawaninban os;Dgl jo Sun laaut of Suilin3 noj saouanbasuoo auZ •uoilunado lallnnnd noj Iunonddu 2uium2 of noind sisoo polmoossu puu suoilon uoilnipawan IIu puu Sun noj olgisuodsan oq Ipm puu uoiloauuoonalul oql ip!m lallnnnd ui o lun ado o f po lliuu od aq Iou llim `aalltuiwoo Iuowo2t'ut'W opialui ail �q uoissiuuad papinond ssolun `sluauianinban asogl jo opislno Ouilamdo napinond XUV •Umisks luomoolg llaglin2I mp of pa satllllouj uoissiuis IIu of Xjddn uotloos sigl ui poumluoo nualuo pun sluauianmban 2uilunado Innauas auZ S1N3W32lI 03M JNllVU3dO C13133NNO0831NI :£ NO1103S •satlmd uodn luopuadaQ - Xlinoglnd 2utouulug aqZ pun luuoilddy oql uaamloq palnxwo oq uuo luau ow2V xmuldaood Iuui3 aql pound 5utlunado Iuin,L puu `uotluil►ouooag IsoD `oouuld000y Iuui3 jo uotlaldutoo uodn uozlvrado Iv powwoo puv ajuvldaood uo2loauuod.ta1uj Ivui4 ,V •sisuq asuo ,tq asuo u uo aall iutwoD luowo2uuuW atinalul oql Aq poonpan oq Cum luatuaninban sigl •poinad 5upwodo luinl oql 2uinnp sannasan 5utuuids %OOi aninbau no opinond of panmban aq Ilim Xlil!oLj oq I, •aouuldaood uoiloauuoonalul luui3 of noted paninban si pound 5uuunado Iuinl aql jo uoisnlouoo Injss000ns •uiu2u suti?aq puu losan si 3loolo Cup St oql ai?u.tanu llagliu - d spoono Xliliquila2I auiluo luuld uoissiwsuunl gaigm ui aouaun000 noun 103 •�liliquilag auiluo luuld uoissiwsuunl uoiloauuoonjui llagltug aql jo napuiutuan aql 3o a5unanu ifutllon gluotu Z aql poono lou Ism Xliliquilag auiluo `poinad •aouutuno3nad stgl 2uinnQ • i?utaq jo uoilunuloap uodn 2utpu3dap sloafond oql no s.Cup sl, jo naluan5 oql jo poua avow no sXuCl St, poinad ftjujodo Imil r o2napun llim Xlitiouj aqZ Buz ;viddo lo.uL •Q uozssimsuv l j1a41ivg jof sprvpuvls uo�wauuowami Interconnection Standards for Railbelt Transmission The Provider shall discontinue parallel operation when requested by either the Balancing Authority or Intertie Management Committee: ■ To facilitate maintenance, test, or repair of Interconnected facilities; ■ During system emergencies; ■ When the Provider's transmission equipment is interfering with Railbelt Interconnection Power quality or Reliability; ■ When an inspection of the Provider's transmission equipment reveals either a lack of adequate equipment maintenance necessary to protect the Railbelt Interconnection or conditions that could be hazardous to the Interconnection. 330 lslanded Operation Transmission plant is required to be able to operate in an islanded mode with a portion of a Balancing Authorities Connected electrical load, unless this requirement is waived by the Balancing Authority considering location, system constraints and specifics of the transmission plant, or during system disturbances. 340 Voltage Requirements 341 Voltage Levels For all N -1 and probable N -2 contingencies assessed against the boundary dispatch cases adopted by the Intertie Management Committee at the time of interconnection), and as identified in the required system studies, The Providers interconnection shall not degrade the voltage response or profile of the Interconnection at the point of interconnection. When operating in parallel with the Railbelt Interconnection, the Provider's voltage must be maintained within ±5 percent of the standard Railbelt system voltage at the point of interconnection. For all N -1 and probable N -2 contingencies, as identified in the required system studies, the Provider's voltage (at the point of interconnection) shall adhere to the ratings and recommendations contained in the current American National Standards Institute (ANSI) C84.1 Standard.. In addition, transient and dynamic voltages shall exhibit strong swing convergence during disturbances.. The Interconnection and interconnected Transmission plant will be protected by appropriate excitation and voltage related protective relaying. Page 15 9 [ aftd uoissitusumi atp `juetd uoissiutsuea1 s, .Iaptno.zd atp jo uoijamdo wot3 linsat .10101U anissaoxa JO suotIipuoo aie110n mot ao uj 3I monoauuooaawi of aoizd poouai.zadxo osotp paaoxa of paliiuuad aq jou Mutts soil pmj s,Japinozd atp jo uotloauuomowl alj of anp saauznsuoo jiaglivX of suondmimi .to `suotJeinap xouanbatj `suoiItoIsip oiuotu U14 `sa2ejIon Ietutougd •uoijoauuoo.zajul all �q poouaiaadxo aotnaas Jo XIitenb atp ui uotlonpaa Sue osnuo of poilmuod aq `oomismoim Xue zapun `jou Ipm uoiloauumiowl llagl!uX atp tpim juatudinbo uoissttusue I s,Japinoad atp jo uoileaado Iatleaed agjL •uotjoauuooaajut jo auttl atp It aanituu OD Juatua2euvw 31113lul atp Xq paldope saseo go1rdsip Xitpunoq atp jsum2u possasse satoua2utluoo Z aigegojd Put I Xue iopun snq utalsXs Xue jo atiiotd 32e110n atp jo uoijepuBap ui llnsoi lou netts luetd uoissitusmi atp jo uoiloauuooaalul •suotlipuoo 2uipeot uoissitusuezl 2uiSuego Xq posneo uotloauuoo olul Magpie atp uo suoilemonU a &eIton azitututtu 01 aapinoad atp Xq papinoad oq Itetts 1011u03 aSejton ajenbopd •uoiloauuoolalul ijaglie2I atp jo olijozd ao uotjeln9w 32e110n atp joaJJe Xtaszanpe iou Iletts weld uoissitusuml s,.iopinoad atp jo uoileiado `•uoiloauuoozalui 3o atuil atp It aaj;ituutoD iuowo2vuuw atimul alj �q paldope saseo goledsip Xaepunoq atp Isuie &e possosse saiou32?uijuoo Z olgegojd Pup I - N Iie J03 s}uawaainbeN aannod ani}oeaa pue uoilejnfiaa afie}IoA EVE •u01103uuootalui of ioizd ism jou pip uotlipuoo situ ftwnsse aanSt3 paou31ajaz atp ut pauieluoo ananD SliligisiA Jo aui-I'aptog, atp anoge uoilenlonU 35BIt luooaad atp paaoxa of pomolie ag Ipm auetd uoissitusuml Xlililn paloauuoozalut ou `SIleoi3io3dS •suo aSvilon alglssluuad iunw :£•01 ain &j Pue 1 uoi133S `6I9 PILTMIS ggal tpim Xidutoo Itetts uoiloauuootalul iiaglie2i atp Tim Iallezed ui Sutleaado Iuetd uoissiutsuwjL •uoilenlonU aSeIIon Jo stanat atgeidaooe uo s;iWil pue suoiIiuiJap sapinoid (6T9 PILTMIS ggal) suuIsICS aanaod al.riaalg ui to rjuoD atuouuvH iof sluauta rinbad pun saazlay.1d papuauruuoaay (gggl) szaauTSug soiuotioatg pue teopioatg jo ainipsul au.L •uopoauuooiowi of aoiad suotiipuoo Suilamdo atp paaoxa jou �az suotlenioni3 32eIton wowdinbo otuozloata 3o uotletado atp Idntsip .to 32etuep XL'W Jo (aalloiU) suoilei.ren 5uijgSil Iensin se atgeaoilou aq Sum Imp suoijenionU aSeJIon as eaa o u t iou Setu ;t3gtie21 otp tpzm u01103UUOOJ saapznozd ogjL soipnis tuaisXs paainbaz atp ui paijijuapi se pue `(umpouuoozalui jo outil atp je aajjituuzoD ivauta &eutW xii3ml atp Sq paldope saseo tloledsip Sippunoq all Isuie�u possosse satouautluoo Z -N atgegozd pm I -N iie jol suoilen}on1 afie;loA ZV£ uozss7uusuv l ;Ia4llvy joj sp rvpuvls u011aauummapi Interconnection Standards for Railbelt Transmission equipment shall be immediately separated from the Railbelt system or visibly disconnected until the problem is resolved. 350 Intentionally left blank 351 Intentionally left blank 352 Operating (Spinning) Reserve Requirements The Provider shall be responsible for providing (or contracting for the provision of) operating reserves to the Railbelt Interconnection. Reserves provided shall be in an amount specified by the most current operating reserve policy approved by the Intertie Management Committee and shall meet the requirements quality of response, and geographic location set forth in that policy. 353 Non- Operating (Non- Spinning) Reserve Requirements The Provider shall be responsible for providing (or contracting for the provision of) non - operating reserves to the Railbelt Interconnection. Reserves provided shall be in an amount specified by the most current operating reserve policy approved by the Intertie Management Committee and shall meet the requirements of minimum start time, quality of response, and geographic location as set forth in that policy 360 Harmonics Harmonic distortion is defined as the ratio of the root mean square (rms) value of the harmonic to the rms value of the fundamental voltage or current (refer to IEEE Standard 519). Distortion of the harmonic content of voltage and/or current waveforms can cause telecommunication interference, disable solid -state equipment, overheat transformers, and create resonant over - voltages. In order to protect The Railbelt equipment and consumers from damage, harmonics must be maintained within acceptable limits. As such, for all N -1 and probable N -2 contingencies, as identified in the required system studies, the interconnection of the Providers facilities shall not be allowed to introduce harmonics into the system beyond those present prior to Provider interconnection. IEEE Standard 519 specifies a range of Total Harmonic Distortion (THD) limits based on the size of the load with respect to the size of the power system. The Provider's equipment shall not introduce, onto the Railbelt Interconnection, voltage or current distortion in excess of the limits contained in IEEE Standard 519 or those present prior to interconnection, whichever is greater. Specifically, voltage distortion shall not exceed the limit outlined in Section 11.5, and current distortion shall not Page 17 8I a2ed aqj 3o apis s,zapinOld aql uo p0110301 luowdinbo uoijaauuoonjui IlL, jo uoilipuoo Iruoil - eaado zadoad `ajus oqj 5uiumlju!tw pur Suunsuo joj olgtsuodsaa si aapinoad 3141 •uoijaauuoarajul .ion' ;uauraa.[SV 3gp ui pouiuluoo ao sp uputis asagj ui paijioads siiuzil 2upwado oqj jo opislno jo `uzaisAs ilagl!ud oqj jo Xi!jSoiui agp of snopjuzLq zo olgvidoomun aauut L ui ftjujodo si zapinoJd aqj j q1 smoddu 1! zanauagM saiIili3733 s,aapinoad 3gi loadsui of 1gS!j oql san.zasaa 3311iunuoD ju3WQSUl W aiPaIul ;)q1 •J3p.10 pooS ui luauzdmbo aoujialui pur uoiloauuoaialui s;i ureJUIMU thus .zapinoad aq1 aaueualuieW }uawdinb3 uoi;aauuoaaalul 66£ ,6ui;sa1 8 aoueuajg1vpV 06£ •sjudzud, inbay luaurdinbg uouiduuoaialul S uoyodS ui puno3 oq uuo sBuillas pum suoilounj aniloaload pojinboi uo sogioodS •uz31s,is aniiomid snumo uoissiuxsuvzl 3gj grim paluuipa000 Ali3dozd put 1 3311iunuOD Ju3w32ruuW aiijalul oql Xq panoiddt puR pamainaa uaaq anUq si?uijjas puM suoiJounj aniloajoid uoiloauuoonjui poiinboi lit, plun pomollu ao pozijoipm oq 1ou llim uoijuj3do l3llund `Xl2uipa000V •p!A? Alddns luoup3lo 3qp jo j pur x1ojus aqj of aouuliodmi Iroll!io jo si w3isKs uoiioaloid sioumo uoissiwsuual aqP glim suoiJaunj anpaaloid u0imuuooa3lui s,z3pinoId aqp jo uoilruipi000 iodoid 3q1 stua;sXS ani;oa;oad;lagliay ililm uollouip i000 08£ •sliuzil paijioads aqp uiglim umviodo urelumm of jopio ui uoddns nmod aAIJOLOl JOJ saoinzas �relliauu Jo uoisinozd 3ql JOJ IoUxIuoo JO apinoid of paainbaz on szapinold •saiJiliotl3 szapinoad aqI jo uoiloouuooj3jui ffq popuzl?ap jou si juiod uoiloauuooimui ;DIP 3o olgoid 32Ujlon 3111 Irgl Bons szolov3 iomod umjuiuuz of Xress000u iomod aniIoLIaz zo3 olgisuodsoi are szapinOJd s;uawa imbaH aO;oad aaMOd OL£ •slimil pomonjoi agl uiglim lualuoo oiuouuug oql 2uizq of uoilo, aniloauoo .ioj olgisuodsaz ploq aq llim puu `sisoo uoijOilsanui oql jo3 palliq aq llim J3pinoad 3ql `uoiIIoIsip oiuouuMq 3nissaox3 Jo oomos oql oq of punoj si fQiiioRJ s,aapinoid aul 3I UOTPOISIP anissaoxa `ol joingijauoo zo `jo oomos v si juowdinbo s,.zapinozd oql J;Dglagm ouiuualap of rjup auil asnq of paiudwoo puL pouuojiod aq Ipm sluowaznsr3w uoiIJoIsip luouno puu 32mlon `p3lo3dsns si u011101sip oiuouuL'g anissaox3 JI •uSisop puu Oumuld XliiioL3 jo so2vis Sl uo oqi ui saiuouuLq aoj iunwm puu aapisuoo Japinozd aq1 JUgj asinpU 3011iuzutoD ju3tuaSL'Ul8 l aivalul pule S1ijoglnd suiouqug oql `uoiIippL ul •p upuuls paouazaJoi aqj Jo pl u0113as ui pouiuluoo sl!wll 0141 p333x3 uoissitusuoij ;1a4llvy .i0 sprvpuv ;S uo?gaauuoa ra;uj Interconnection Standards for Railbelt Transmission interconnection. Maintenance records, procedures, and results shall be made available for the Intertie Management Committee's review and records as required. Depending upon the characteristics and utility of the facility, The Intertie Management Committee may elect to observe and inspect maintenance work in order to assure the safety and integrity of the interconnection. The Provider must coordinate and schedule maintenance on interconnection equipment with the Balancing Authority 392 Protective Systems Functional Testing Periodic functional testing of protective equipment (i.e., circuit breakers, switches, disconnect devices, protective relaying, etc.) shall be defined and coordinated with the Balancing Authority within the Agreement for Interconnection between the Transmission Owner and the Provider. The Provider must grant the Transmission Owner the right to observe functional testing of the Provider's facilities. Generally, functional testing of protective relay settings and interconnection circuit breaker operations shall be performed by the Provider per the manufacturer's recommended testing interval. Documented test results must be provided to Transmission Owner within five (5) working days after the completion of tests. The Provider must grant the Intertie Management Committee the right to review and modify the functional testing requirements, as necessary, during the life of the facility. Page 19 Interconnection Standard for Railbelt Transmission Section 4 SECTION 4: GENERAL REQUIREMENTS 490 Design Requirements 411 Design Documentation and Information For review and reference purposes, the Provider shall submit the following information and design documentation with the interconnection application(s) (Refer to Appendix I. Applications for Interconnection). In certain cases some submittal requirements may be waived, at the Intertie Management Committee's discretion. The design documentation will need to be approved by an electrical engineer, registered and recognized as a Professional Engineer in the State of Alaska. Where this approval is required, it shall be indicated by the presence of the engineer's professional seal on all drawings and documents. A. One -Line Diagram This is a schematic electrical drawing with sufficient detail to show the major elements of the facility electrical connections, interconnection and protective equipment, and point of interconnection to the Transmission Owners electrical system. The diagram should include the following: ■ Circuitry of the facility, to include conductor types, sizes, and bus electrical ratings ■ Metering points and instrument transformers (as applicable) ■ Interconnection transformer • Relays and circuit breakers /interrupting devices • Switchgear (as applicable) • Utility circuitry at the point of interconnection • Plan and profile • Reactive power devices (as applicable) B. Three -Line Diagram (as required) This schematic electrical drawing shall represent all three phases and neutral connections of the interconnected facility circuits, showing potential transformer (PT) and current transformer (CT) ratios and details of their configuration, including relays, meters, and test switches. Page 21 ZZ aft'd uouanaisuoa fb;umaauauruwoa ayl puv juawdznba ffuuapro of .roud aall!w Boa yuamaoQvuvM a .q.raluj aql i'q paAorddv puv `ol pan!wgns aq pinous ukisap 1vuff aril IsiCvlap puv sisoa divssaaauun ajvynarija o f •sSuimt,zp It,utj agj 3o saidoo pait,p grim papinoad aq isnw 33u!unuoo ju;3woSruLw opiziui aga put, zaumo uoissiwsut,ay a p [Poq put `aout,ld000t, It,ug of zoiid apm aq isnw aojj!wuroD juowQSvuUw apialui oqi jo joumo uoissiwsut,aZ agj Aq paambaa s32ut,go dud •(uoijnuuofu1 pure U0 u81saQ wt, jt, uoloaS aas) juawdmba put, suopounj anrlooload uotloauuoojui agp Jo It,noiddt, ioj aaumo uoissiwsut,jZ aga of iuowdmbo sigl jo 2uimaip outs- aiiuis t, jjwgns Iit,gs jut,otiddt, agl `w;Dlsxs snump uoissiwsuuj L agl jo uoi;oaloid agp joj saoinap antIoalord Suisodoid uQgm •sopoo It,dioiunw put, `It,00i aIris `It,zapaj Iit, Put, `sp tput,ls gggl `aPOD 'fJojuS luotz13319 TuOlIEN QIP `aPOD It'31 It,uOTIRN agl 01 uuOJuoo isnw luowdinba put, su2isop Iit, put, `sjuauraimboi s,.ioumo uoisstuisut,aZ 13au[ jsnW .zapinoad Qq L •suotit,rapisuoo orjioads -alts iotpo put, `azis `odXl uoissruzsumi agl uo spuodop w;)IsSs uopoaloid agl jo u2isap oijtoads ags •piag oiamla jI agl grim uoijoauuoozajui ao3 It,nozddt of joi.rd aajjtuuuoD juawoSvuvW oilralui Xq panozddr puu pomatnaa suBrsap uoilomid put Ioiluoo sit ant,g jsnw misXs llzgj!uX agi glim Iaiit,red ui alt,.rado of sosodoid lt,gl jut,otiddt, got,g }uawdinb3 PUB swOISAS an113810.1d Z �b •aaijiuzuzoD iuow;D2vuvW oilralul agp Xq palsonbaz st, `.ii!pzmj pommoo iui agl of 5ututt,lrod slu;Dwnoop jo uorIt,uuojui u2 1sap It,uorIippt, Rut, apinozd Iitm .zapi 31P `anogt, agl of uoilippt, ui •Oumuds put `sapojioaia jo odki put `ozis `joqumu agl st, Iiam st, `suoiloauuoo put `2?uipuoq `sozis wim punoiS olvoipui Iit,gs sSuimt,zp asagy s2uimvj(j 2uipunoxg ifjgtae3 •g •sSurmrip 0111 ui paluoipui J IJmoio oq pinogs Ioaiuoo got,a io3 aamod jo aoanos agZ •asoio .ro uodo of Xl!l!oLj Sup- 3auuoonwi age of patiddr sizVojq Imoaio Iit, osnt,o Imp srauuojsut,.rl luauzrulsui put, `sXtjoi `suollipuoo agl molts IILgs sguimt,ip asagZ s2luiennaQ toi;uoj nnva.ig Iinoaij •Q -Rut, 3i `luaurdmba Oui.zalauraia; put, `Suijolo z `s�goj It,npiniput agl 3o suopounj agl olumpui Iit,gs ure.IBUIP sigZ gutnVnaQ inuoi;3un3 21uiaajauiaJaZ pun tuiaalaW •3 f uopaas uogssimsuv r j J1agjjvg .ro p rvpuvIS uouaauuoa rajul Interconnection Standard for Railbelt Transmission Section 4 The Intertie Management Committee will accept only those portions of the Provider's system designs which apply to the interconnection with, and protection of, the Railbelt system. The Intertie Management Committee may comment on other areas, which appear to be incorrect or deficient, but will not assume responsibility for the correctness of protection pertaining to the Provider's system. At the completion of construction, functional tests of all protective equipment must be performed and/or witnessed by designated Transmission Owner personnel. In order to gain Transmission Owner approval for interconnected operation, successful completion of the functional tests and verification that protective relay criteria are correctly applied must be demonstrated and documented. 413 Railbelt System Modifications Any modification to the Railbelt electric grid, such as the installation of additional equipment, reconductoring of all or a portion of the connecting Transmission Owners line, or reconfiguration of Transmission Owners protection systems necessary to permit in- parallel operation with the Railbelt electric grid, will be performed by the Transmission Owner. Where such system modifications are required to allow the interconnection of the Provider's facilities, the Transmission Owner will perform these modifications, providing all labor, materials, and equipment necessary, at the Provider's expense. 420 Design Information -- Railbelt System 421 Standard System Voltages The Railbelt standard system voltages conform to ANSI C84.1 standards, and are outlined as follows. Specific voltage requirements and limits for Provider's transmission plant are described in Section 3: Interconnected Operating Criteria. ■ Transmission Voltages (line to line): — 69,000 volts, three -phase — 115,000 volts, three -phase — 138,000 volts, three -phase — 230,000 volts, three -phase Page 23 17Z Oftd )Iuelq Mai A'Ilvugllua ;u/ opp )Iuelq yal A1'1euoi;ua;u1 pep b uoYaas uoissimsuv l ilaql?vy jof prvpuvIS u0113auuoaraluj Interconnection Standard for Railbelt Transmission Section 5 SECTION 5: INTERCONNECTION EQUIPMENT REQUIREMENTS 590 Introduction In order to simplify the process for determining the interconnection equipment necessary to operate transmission plant in parallel with the Railbelt electric system, the Intertie Management Committee has developed this section which outlines the minimum interconnection requirements for Provider -owned facilities. 520 Overview of Required Equipment This overview of required equipment and devices provides general descriptions as to the components, including functionality, purpose, and responsibilities by both the Provider and the Transmission Owner regarding ownership, installation, and maintenance. Specific requirements for Provider -owned interconnected transmission plant can be found in Section 530: Equipment Requirements. 521 Metering Requirements For all transmission facilities, the Intertie Management Committee requires that "In -Out Metering" be utilized to capture the real power flows (watt - hours) into and out of a Provider's facility. It is the Provider's responsibility to provide, install, and maintain all facilities necessary to accommodate metering. All meters shall be provided by the Transmission Owner at the Provider's expense. Depending upon the specific application required metering may also include the following: ■ VAr -hour metering ■ Real power (watt) demand metering ■ Reactive power (VAr) demand metering 522 Interconnection Disconnect Device The Transmission Owner approved manual disconnect device must be provided as a means of electrically isolating the transmission facility from the Railbelt system, and establishing working clearances for maintenance and repair work in accordance with the Transmission Owners safety rules and practices. Page 25 9Z aoud log `aanssazd uoppns su gons SJUXUala anijoajojd jo luautaldtuoo Iln3 t anb'g 01 paloadxa aq IILgs put (sasn3 jou) sioVojq ein paloajoid oq IlLgs (s)jauuojsuL,.ii gonS •uzajsSs snumo uotssiwsu -zZ aqj glim loauuooaalut of SSUTILa Xmss000u oql jo zauuojsuuzj U IlVIsui 01 paau Sb'uz zapinoad uoissiWSULIJI aqj saawaoIsueal £Z5 suoilisod pasolo puu uado aql gloq ui olgtNool oq jsnW . :zaglram of aansodxa puLIsglim of pou2isop jo joozd- zagjvam oq Isnuz saotnap 1 33 UU ODSIP `suoijullulsui joopino i od `polmodo -2mi? oq jsnW . .uomsod pasolo jo uado agp ui joglagm 2uproipul `olgisin XluiRld aq jsnW .wnpq Alddns U 30 Iuana Otp ut puRq Xq pauado oq ueo jugj odSl e jo `olquzado -iomod 3i `puu sired anil gum ioumoo of joiviodo oql Suisodxa inoglim olgezado Xlluuaalxo oq jsnW :suiaalaui (I!I!OL'J aql Mau `uoijoauuooaalui oqj jo apis Snumo uotSSItusuml aql uo polvool oq jsnW : .iaump uoissitusurrZ oql Xq IVnozddL .zo3 sluotuo nbai luotsXgd wnwiuiui Suimolloj agi hoot isnuz saotnap loauuoosiQ •sloolpt sioump uoisstuzsut agl gllm sawij Ilt Ir palool jd;D j oq isnw (luosatd uogm) olpuLq 2unmodo puL amsoloua aotnap aq 1 •3301sap S11 ao aaumo uoissiwsuLj L oq1 �q poluiado oq Xluo Iltgs aotnap loauuoosip agZ - alL , ld jogwnu gojims pajuuBisop -aaump uotssiwsuuil L gjIm po!j!luapi oq llugs aotnap 130uuoosip oqZ •louuoszad snump uoissiwsuL oql of Xi!liq!Sin pur Mom jo own joj p3mool XIluots.�gd aq jsnw aotnap Ioauuoosip Imum aql *posh oq llegs joumo uoissiwsuuzZ aql Xq panotddr Xllvoijtoads saotnap XIup •saijiligisuodsaz aouvuaju!Lw puL digszaumo aumssu puU aotnap age Iluisut Ilegs aaump uoisstWSUUJZ au1 `osuadxo s,zapinold OT Id •Iuzod uouaauummalut ayl fo apis siaumo uozssimsuvij ayl uo palmol aq 11vgs aoiAap jaauuoasy ayl `Jamno uozssztusuv j ayl tuoif uolssiumad uallym papznord ssalun Isasm liv ul •pia? DIJ10313 alp uioz3 uoiloouuoosip 3o uoijRoiJiaan algisin apinoad pur `lauuosaad saaump uoissiwsuua I, Ni Xq algissaozm �Ijpraa puu alganoas aq isntu 331Aap IoauuoosTp lienuutu sigZ S u01aas uozssltusuvij I1agj?vy jof prvpuv ;S uoyaauuoa.ra ;ul Interconnection Standard for Railbelt Transmission Section 5 spot, and mechanical relief telemetered. Periodic gas analysis will be required. 524 Protection and Control Devices Certain protective functions and control equipment are necessary to ensure that both the safety and reliability of the Railbelt system are maintained. While the Provider is responsible for the installation and maintenance of such equipment, it should be noted that the required equipment outlined in this section applies only to the protection of the Railbelt system, not the Provider's facilities. The minimum protective and control equipment requirements for Provider -owned facilities are as follows: ■ Interconnection Circuit Breaker(s) ■ Anti - Islanding Protective Functions — Overvoltage Protective Relaying — Undervoltage Protective Relaying — Overfrequency Protective Relaying — Underfrequency Protective Relaying ■ Synchronization Protection: — Auto Synchronizing — Sync Check Due to the impact that larger facilities can have on the system, additional requirements shall be necessary for such facilities, including but not limited to: ■ System Fault Protection Functions — Ground Overcurrent Protective Relaying — Phase -fault Protective Relaying — Breaker Failure — Buss Differential — Transformer Differential ■ Transfer Trip Capability ■ Export Power Control Equipment — Voltage Regulator/Power Factor Controller — SCADA Control (including Balancing Area SCADA Control) Page 27 8Z AM siollouluoD zolot'3 iomod puu IouluoD uotjulnSo -d 32 EI1 0 A apnioui Xrw luauudmbo stuZ •luouudmbo loaluoo iomod uodxo winboi Xt'uu zap!AO.ud 3ql •juauuaajSle aup jo suual aouuuu.uoj.uad og!oods otp uodn Suupuodop XiLssaoau oq fuuu luauudmbo loiluoo It'ioods `Xj!jj0t'3 s,zapiAO.ud otp uuoz3 ramod jo podxa .uoj (s)sIuauuaaasv sullaaqm JO/put' (s)lu3uu3au2d asuuoznd Jamod olui aajua Xluled aaulouu puu jop!AOad atll aiaum sasuo JO3 }uawdinb3 boa }uo0 aannod :podx3 LZ9 •sjuawa.nnbay;uauudinbg uoyq,- uuoaraml OES uoilaasgnS of zajaa `sluauuaimbau Suupuooaa aalauuend oujioads io,q •lauuosiod szaump uotsstuusuleaZ pule Xltzoglnd 5uiouuiug atp uum suoilmiunuuuuoo jo aanluu pule auuil, . °(•ova `s�a�.ule� Xulaa aAtloalozd `sdiij za}It'aaq 1momo) suoilumdo juauudinba aAtjoajozd . `.•ola `Souonbau3 `iomod aAiIoleaa pule ileac `aBuJloA su lions szalauuuzled Ileuoijundo So)l . :gulmollo3 aril su eons suotjuxado uo uoiiuuuaojut popuooai opnioui s3ol mvp Iuuoilmodp BuiBBo ejea jeuoileaad0 9Z9 •syuawdimbay luazudtnbg `f•S uotjaaS 01 JOJOJ `sluauuajmbau Ouuzalauuolal oijioads coq •sa2t'Ino uualsXs i?uianp saauunsuoo sit 01 aotAZas Jo uoildn.uajul poSuolozd pionle pule WOISXs IUZ)IJIoala sli almodo Xljuatoijja of gilt .ioglnd Oumulug a p mollu of `paaalauualal oq Ilrgs ivauudmba uoiioauuooaaiui jo snileis ogjL •paambaj aq Il! m aBt'IIOA pule (nmod OATIoleaa pule Iuaz) smoU iomod sr Mons t'iup jo Ouiiolmolal •Xjt.uogjnV Suiouulug ails Aq panoiddt' l000loid u ui lauutgo uotluaiunuuuuoo le jo pile a p qlim palliuusulezl oq Illeus salg PEA •(•ola `Xouanbai3 `,iI!Irnb iomod `.uamod 3AUIole3.1 put' Ileac `02t'110A) ujup IndIno uotlleisgns st' Ilom su `suoilounj .uallouluoo puu juauzdmbo jo snivIs aul su eons salgleiauA sapniaui sibs •SjtaotUnd Suiouujug aqj of Xi!j!ouj uoisstuusule.ul saapiAOad oql uuouj sindino pamsleauu jo uoilleoiunuuuuoo otp sanlonui S .1131u0101 s}uawo.ainbaa Buiaolluow pue fulawaial 9Z9 9 uopaas uozssimsuvr j ;1agl!v2l jof prvpuv;S uomaauummalul Interconnection Standard for Railbelt Transmission Section 5 depending on the specific determination. Refer to the specific requirements under Subsection 530 for further information. 528 Protection & Control System Testing Capabilities To allow performance and verification of functional testing, the Provider's protective relays and control systems associated with the interconnection shall have accessible sensing inputs or testing terminal blocks, or acceptable equivalents as approved by the Transmission Owner and Balancing Authority. Page 29 OE a$ uoi1aa;oad 32njj0na3np /aapufl 'Z •uopoauuoozajut .ioj paiinbai sX9131 aniIoa;ozd oqj Xq polundo uogm ino paxooi oq puL uotlbooj sli 1u luouno linvj ajq - ej!UAU uznwixuuz aqj ldruaawt of paads puu �1i3 Suildnzralui luoiotjjns anL'ri jsnuz aaVoiq sigZ (q •suoil!puoo jjnrj i?uianp uulsXs szaumo uotsstuzsuril aqj woaj mujd uotssiu SUUJI s,Japinoad aril jo uoilvredos mojje of parmbw sr nVaiq Imo io panoiddL siaumo uoissitusurijL d (r (s).n3juaig Ima.iij uoilaauuoaaaiul •j :smojjo3 se are suorIvjjmsui joj sluauzaimbaa jozluoo pu7a uopoajoid uopoauuoonjui jumu32 aril saoiAap;oa;uoO pue uoi;oa;oad n JVue ;g Ma7 Xj/euoi;ua ;u; Al •(Z amOi3 pup `aoinaQ loduuoosza uo :ZZ.S uoz;oasgnS of .iajaz) suoilujjmsui jiL joj paambcm sr aornap Ioauuoosip junum panozddu ud aoinap ;oauuoosip uoi ;oauuooja ;u; •.zapinoad aril puu soppuo snoiJUn uaamlaq slumaziA junraiwoo XuL jo sog!oads oql uo puodop jitm Suizalauz puvwop ramod OAIIOUar zo juaz `(anoq -.rdn) 2uia31auz ,(Sjoua jamod OATIOBW sL gons `sluawaimbai Suinio z 1Luotiippd •2uiaalaw znori -llum ino/ui si soij!jtouj joj Suijolow patmbaa wnwiuiw aqi `jtaauoS ui s;uawaimbad 6uiaa;apV - wolsXs jjagj!r-d aqj of muuooiawi of 2uisodoid i!povj aril jo sopsiaaloungo aril puu `saaumsuoo ivaoufpu jo XI!Wlxo .id puu jagwnu aril uoilooumojui Qqj jo uoiluooj aril su eons saolouj uo ftpuodop `XXUA XUW XIijtouj posodoid junprnrpui gora j oj sivawarmbai orJioadS •satjijtouj uoissiwsuvzl aoj husswou luowdinba uopoauuooaajui wnwiuiw o p 31Ljs sp upuelS uotloauuoonjui aql jo uoilrod sigjL s;uauwaainbad wnwiMIN jo uoi;eoi;ddd s;uawaiinbaiy;uawdinb� uoi;oauuoo is ;u / 0S5 S uoz�aas uoissiwsuv r j ;1agllvg jof p rvpuvis uo . naauuoo ralu j Interconnection Standard for Railbelt Transmission Section 5 This protection is required in order to trip the interconnection circuit breaker when the Provider's voltage level is above or below the Transmission Owners nominal level at the point of interconnection. a) Undervoltage protection (Device No. 27) must be set to initiate a trip of the circuit interconnection circuit breaker when the Provider's voltage level falls below a level approved by the Transmission Owner. Intentional trip time delays must be coordinated with and approved by the Transmission Owner. b) Overvoltage protection (Device No. 59), in general, must be set to initiate a trip of the interconnection circuit breaker, with no intentional time delay, when the voltage is equal to or above a level approved by the Transmission Owner. c) Specific under /overvoltage trip settings will depend on the location, type, and size of the interconnected transmission facility. The Provider must coordinate with the Transmission Owner for specific relay settings. 3. Under /Overfrequency Protection This protection is required in order to trip the interconnection circuit breaker when the frequency varies from the nominal of 60 Hz. Generally, the following trip settings will be required for all facilities: a) Underfrequency protection (Device No. 81U) will be set to initiate a trip of the interconnection circuit breaker with delays and set points required to coordinate with the Railbelt Underfreqency Protection Scheme. b) Overfreqency protection (Device No. 810), will be set to initiate a trip of the interconnection circuit breaker, when the voltage rises above a level approved by the Transmission Owner and the Intertie Management Committee. 4. Intentionally Left Blank 5. Ground Fault Protection Ground Fault Protection is required for all facilities. This protection (Device No. 51N) senses phase -to- ground faults on the Railbelt system and initiates tripping of the interconnection circuit breaker in order to prohibit continuous contribution to such faults from the Provider's facilities. Page 31 Z£ a uotloauuooaalul Jo lutod lu aSnlloA - (.Tb'Ax) smoi3 aannod anilonag ■ (AVI) snnold aaenod Inag - (tlMV snnold Si?aaug - :xliaoglnd guiounlug aql of paaalauzalol oq Iings sluauzaansuatu pun ulnp Suimollo3 oql `uxnuziuiuz n sd •aaluaD IoaluoD J;DmOd satliaogpnd 2uiouning otp utoa3 woisXs aamod aql aoliuouz XIlnnuiluoo of saagoludsip tuals,is oql olgnua of paainbaa st nlup uoissiuzsunal JO 2uia0l3ut0laZ 'aapinoad oql Xq papinoad souil suoiluoiuntutuoo nlnp panoaddu utn aaluaJ IoaluOD aamod sailiaoglnv iiuiounlug aql of nlup aalautalol XIsnonuiluoo of luotudinbo annq of paainbaa aan sopiliou3 III' If ilaucaiaZ -1 8gjo #uopv pue A i;awalal YA - asodand stgl ao3 ltnoaio suoiluoiunurtuoo iuli2Tp palulosi `paluoipap n apinoad Iings aapinoad agZ - soouuganlsip ao sllnn3 utalsSs Suianp XIiodoad salnaado uoilooload utalsfs llagj!gd lugl aansuo of aapao ui Xliti3u3 s,aaptnoad otp loauuoosip o uoipooload uta lsXs ltagtin2i moltn of paainbaa aq Sm 2utddtaZ paasissV suoilnoiuntutuoD ,f;iiiqudu3 dial aajsuu iZ •L •s�?utllas dial puu auzagos uoiloaload llnuj -asngd 3141 anoaddn puu nnainaa Ilugs numo uoissitusuna I, otp `uotluaado poloouuooaalui aoj uotlurtaoglnu of aotad •uotloaload ilnuj -asugd ao3 paainbaa st (iZ 'ON aoina(j) Sups vj a aouupodwi JO (A19/09 'ON aoinaQ) SuiXnlaa luaaanoaano pautnalsaa- agnllOA •saililion3 s,aapinoad agl uzoaj sllnn3 eons of uoiingtaluoo snonunuoo 1igigotd of aapio ui aa)Iuaag ltnoaio uotloouuooaalui agl jo Ouidd soluiliui put uzalsXs llagl!LW oql uo sllnu3 asngd -aaitp ao osngd- of -osugd sosuos uotlooload siq L - sompon3 Ilu ao3 paatnbaa st uotloaload llnn,g -osugd uoijaalo.id ;Jnud -asngd - 9 •sguillas dial pun auzagos uoilooload llntj punoa2 agl anoaddu pun M3 1Aa a lings aaumo uotsstutsunaZ oql `uoiluaado poloauuooaalui ioj uoiluziaoglnu of . 1011 d 's2utllas dial uo aaumo uoissitusuna I, gp!m oluuipa000 pun auzagos uotloaload llnuj punoa2 oluiadoaddu un apinoad Iiugs aapinoJd O 9 u011,aas uolssgwsuv j jjaqj?vMlof prvpuvIS uoyaauuoara ;uj Interconnection Standard for Railbelt Transmission Section 5 ■ Interconnection Circuit Breaker status 2. Monitoring Power quality monitoring will be required in cases where the Balancing Authority determines that there is either a potential or an indication that the output from the Provider's facility can adversely affect the standard performance of the Railbelt electric system or the quality of power delivered to consumers. Depending upon the specific requirements, the monitoring system may be required to detect and record such disturbances as waveform distortions, electrical noise, voltage sags or swells, frequency deviations, and harmonic distortions. The requirements for power quality monitoring will be determined by Intertie Management Committee on an individual basis. V11. Operational Data Logging All transmission facilities are required to have and maintain digital data logger which records volts, watts, VArs, frequency, and the status of key system elements, including the interconnection circuit breaker status operations and relay targets. The data logger shall provide a GPS synchronized time stamp for tracked variables, including date and time of day (HH:MM:SS). The Balancing Authority shall have the right to review these logs, especially in analyzing system disturbances. V111 Export Power Control Equipment For cases where the Provider and another entity formulate a Transmission Wheeling Agreement, the following equipment may be necessary in accordance with the terms of the specific contract: 1. Voltage Regulator/Power Factor Controller The Provider may be required to utilize either an approved voltage regulator or power factor controller in order to control voltage within specified limits. Where a voltage regulator is utilized for this purpose, it must be capable of maintaining the nominal interconnection point voltage under steady -state conditions, without hunting, and meet or exceed IEEE standards. Where a power factor controller is utilized, it must be capable of maintaining the power factor setting within IEEE standards. The transmission plant may be required to follow a Balancing Authorities specified voltage or VAr schedule on an hourly, daily, or seasonal basis depending on the specific terms of the power purchase Page 33 t£ aosd •luauiaaigu npun filjoipnV 2uiourlug aip �q pogolLdsip oq of si luotudmba all 3i paainbaa aq Xutu .ialuoD loJIuOD Jannod soilizotpnV Ouiouulug atp woj3 siolvIn2w a &IIIon Jo sotlol!ms poziioloui `sjoVaiq jo (lo.iluoo Aaosinzadns) to luoo loaiiQ 10.1Ju03 pj!21Q paaiQ •Z •sonssi pue suoiporuisui puoiltaaado oipoads zo3 .ia;uoD lojiuoD soili.ioulnVV SuiouUlUg alp uliM 31Buipa000 lllCus J3pinoJd X44, '10MIu03 S u0113as uoissimsuvjL Ilaqpvy jof prvpun ;S uoyaauuoa.rajuj Interconnection Standard for Railbelt Transmission Section 5 /X. Equipment Requirements Summary Table 5 Interconnection Equipment Requirements Summary Equipment Requirement All Installations Approved Disconnect Means Required In/Out Metering Required Interconnection Circuit Breaker Required Undervoltage Protection Required Overvoltage Protection Required Underfrequency Protection Required Overfrequency Protection Required Ground Fault Protection Required Transfer Trip Capability Required Phase -fault Protection Required Telemetry Capability Required Power Quality Monitoring See Note 1 Export Power Control Equipment See Note 1 Voice and Data Communication Capability Required Operational Data Logging Required (See Note 2) Automatic Synchronizing w/ Relay Supervision Required Note 1: Requirements will depend on specific contractual agreements and will be assessed on an individual basis. Note 2: A digital data logger is required; refer to Subsection 5.3.4.7 for specific requirements. Page 35 9£ a$vd a a:z -a co wz m � a LU J S u0113as uolssimsuv l jja41zvg jo p rvpuviS uoyaauuoa raIul Interconnection Standard or Railbelt Transmission Section 5 This page intentionally left blank Page 37 SE 3sud J/ua1s Va7 A'#uuoilua;u1 055 - �Juss000u su Xl!ltoL'J s,aaptnoJd aql put Sltzotpnd BuiouvIPS aul uooml.3q pouojsuvjj oq uuo suoponaisui Suiluzado io/puL elbp muoalaala lvuj os paambai si XliliqudLo suoijumununuoo mucl •XliaoglnV ifuioublug aul of i3gwnu ouogdalai imuoo aoton algissaoou inoq -tZ u apinoid of pajmbaa si zapinoad aul 'Sl2utp1033d 'XJt3ssaoau su luauzdmbo s,zapinozd acp jo ioluiodo p3jVa sap SULI .io zapinozd aul 01 u3ni2 aq uuo suoilipuoo uiaisSs 3o uoiluoljllou jo suoilon Tsui 2upwado iugi os popinoid aq Ism suoilt'oiunuzuzoo aoton •saijilioej llt ao3 pwinboj si a3u2ts3p s,zapinozd aqj JO zapinozd 0111 lgl!m auogdolal Utn suoilmiunuzuzoo lugzan 1 03JTp a - Vui of Sj!j!quduo zql suoi;eoiuntutuoq e;ep pua aoioA 0#9 S uoyaas uozssimsuv l llagj?PH jo prvpuviS uolxaauuoajajul Interconnection Standard for Railbelt Transmission Appendices APPENDIX A. INIT /AL APPLICAT /ON FOR INTERCONNECT /ON Page 39 0V a NO1103NN00Y31N1 YOzl NOU d0 17ddV 7VNI -4 '8 XIaN3ddd saaTpua uolsszzusuml jjag1zngjo prvpun�s uopaauuoaraIul Interconnect Standard RailBelt Transmission GLOSSARY n this For industry standard definitions of electric ry terminology and Electronic Terms, glossary, please refer to the IEEE Standard Dictionary of Electrical IEEE Std 100. 0 AC The abbreviation for alternating current. Abnormal Voltage Voltage that is outside of the standard nominal voltage level. Ampere (Amp) The unit of current flow of electricity. It is the same with reference to electricity as is the number of gallons per minute when referring to the flow of water. One ampere flow of current is equal to one coulomb per second. Automatic Self- acting, operated by its own mechanism when actuated by some impersonal influence as, for example, a change in current strength; not manual; without personal intervention. Automatic Circuit Recloser (A) A self - controlled device for automatically interrupting and reclosing an alternating current circuit t writh closed or lockout (ANSI C37.60). g and reclosing, followed by resetting, hold (B) A relay that controls the automatic reclosing and locking out of an AC circuit interrupter. Automatic Control ical controls which provide for opening and/or closing in an An arrangement of electr automatic sequence and under predetermined conditions; the switches which then maintain the required character of service and provide adequate protection against all usual operating emergencies. Available Fault Contribution The maximum current that can be supplied to a fault (short- circuit). Page 41 Zt asud •loauuoozaiui 3o juiod agp it soouuaualo flu loj Xlpua Suizuogjnu ails si jaumo uoissiuzsuujjL agZ •louuosaad pazi�oglnu �iq paHuj oq s3amos .Tomod olgissod 111L wqi pule sao.�nos iomod algissod lit wo'ij palulosi Slajaldwoo oq souil ao wowdinba agp ILtp luaaua.2 ut are paluua2 aq uuo uoissiuuad eons aiojaq Iiunajd isnw goigm suoilipuoD •ajil uuuzng of snoaaSuup slum' d Iuoi.z13310 Ile poziSaauo SIluuuou am goignn wouzdmbo jotpo io `sagol!ms `siolonpuoo `sailer `oi Spunwid asolo ui owoo of jo igl!m IouIuoo olut auzoo of uotssiuuad (8MRJOA0 aauvrvaB7 •11nmio hogs u jo asogi su gons `suoiiipuoo luuuougu pog!oods jopun sluazzno 5ui4uajq put `auzp paijioads u jo3 Su ituuo `Su'Vtu oslu puu suo imojio Iuuuou npun sluanno dui uajq pup 5uihno `Sui7w jo alquduo aotnap 2uTg3jiens d ja -yva rg jzno-q j slumolo luoliloala jo uoiIoauuooaaIUT uv jma rz j •Xiiliquduo ql!m �IsnowXuouXs pasn oslu si XjioudrD •paluz ST wolsXs io `uopuls `snivauddu `Imoaio uoissiwsuua; `jQuuojsuvjj `ouigrnj `jolunua2 L g oTgM z o3 pool agZ (£) `.suoTITpuoo aoinzas Supsixo aapun alquduo si 1! goigen 3o wnwixuw agl `SIIL'm zo (VA) saaaduzu -1I0n lei WAIS XIILoidXl `aotnap Jo `snjujuddu `3uigouw u jo Xi!ouduo ags (Z) :paivag Xlnpun 2uiwo lnOIP!m X uuo ll!m wim u iva.uno oizaoala jo sonduzu ui luonno jo ;unouzu oq L (I ) dlzavdv j a raa/va rg jtnj rte, 33S jaxvarg •Ianal iomod ot3ioads u of sdals alwosip ui zolumaj? u 3o i?uipuo-I Papvo7-aYaolg •aojnos agl XIluuuou si Imp W;DlsXs zip oiuo ivauno jo /pule 32LJ1 aonpozlui 0 aotnap u jo Xupgu aqL paa IN vssolo uogssimsuv l ;lagllvgio prvpuvls uopaauumialuj Interconnection Standard for Railbelt Transmission G lossary Cogeneration Facility Equipment used to produce electric energy and forms of useful thermal energy (such as heat or steam) - -used for industrial, commercial, heating, or cooling purposes- - through the sequential use of energy. Control and Protection Control refers to the methods and means of governing the performance of the generating facilities. Protection refers to the system of devices used to detect abnormal operating conditions and to initiate tripping of apparatus. Converter A machine or device for changing alternating current (AC) power to Direct Current (DC) power or vice versa, or from one frequency to another. Current The flow of electric charge measured in amperes. F1 M The abbreviation for direct current. As ordinarily used, the term designates a practically nonpulsating current, such as the output of an electric battery. Dead -End Structure The structure on which a span of aerial conductors terminate or transition to an underground circuit. Demand The rate at which electric energy is delivered to or by a system; normally expressed in kilowatts, megawatts, or kilovolt- amperes. Direct Transfer Trip Transferal of a signal to trip circuit breakers at the remote end of a line. Disconnect Device A device whereby the conductors of a circuit can be disconnected from their source of supply (IEEE 100 - 1984). Page 43 btu 32 nd •sJmozio gouvjq uoiJngijJsip azouz ao auo 2?uiXlddns `uoiJLJsgns jo nivao uoiJngi.iJsip uiuw L Ju SuiJvuiiizo szoJonpuoo 3o Jas d japaa,l •omJ zqj uaamJaq (z)au uu guipnloui) uopoouuoo luuuoug, uu of i?uimo `joJonpuoo joglouu ao punoiS of ioJonpuoo auo woaj smolt wqJ w ouno d jua.i rn j j1nv j •sagLIJlon mol pup sJuauno g2iq Xq pozilmoungo `punoB put (s)osugd uaamJaq zo sasugd uaamJaq `wolsXs luoimolo ur uo Jmojio Jaogs lruoiJuoluiun uV ;1nvg 3 - ,04Duo ouJoalo 3o aainos v of Ju;Dwdmba jo aoaid jo i!nwio poziSnuo -3p L Joauuoo of :Juauzdinbo jo aoaid ao Jmojio v of A10110n XlddL" oZ a2z�.raug •aamod 01113ala zanilap of posh sw;DlsXs uoiJnq!jlsip put `sauil uoissiuzsuLjl suolltjs uoiJigjaua2 paJoauuoo.zaJui jo w3Isxs aqs iniq fiddnS 1volipalg •(.10jaiaua!) of iojag) •aamod ouJoolo oJui nmod luoiuegoow suuojsu - cil JugJ auigoLw V Jolvrauag au ;aalg a 'uoisinip prol olquis gJim lallemd ui olviado of saoJvaauaS paJoauuoozaJui salgL'uo `Juaoiad £ AlluoicMJ `doozp paads aqZ •anjno ousiamriugo jomod -paads s,.zanoux auziad agJ jo odols OU doo a •uoiJipuoo uzaJsKs luuuouge uu soonpozd JugJ (•olz `suopwodo aaVazq `uoiJuiaua2 ao puol Jo ssol uappns `JlnUj "S-0) Juana pounidun uV aouvq rnisia vsso19 uoissiwsuvr,L ilagltvg i0f prvpuvIS uopaauuo.?Ja ;uj Interc onnection Standard for Railbelt Transmissio yiussuiy Flicker Impression of fluctuating brightness or color, occurring when the frequency of the observed variation lies between a few hertz (cycles per second) and the flicker threshold (the frequency of intermittent stimulation of the eye at which flicker disappears). Forced Outage Any outage resulting from electrical equipment failure, a control systems malfunction, a design defect, operator error, or failure of mechanical systems integral to the electrical output of a generating facility. a breakdown of the mechanical or electrical equipment that fully or partially curtails the electrical output of the generating facility. Frequency The number of cycles occurring in a given interval of time (usually 1 second) in an electric current. Frequency is commonly expressed in hertz. Frequency Deviation A change in frequency from 60 hertz caused by a temporary imbalance of generation and load. G Gang- Operated A multiple pole switch in which all poles are operated simultaneously. Generating Facility A plant wherein electric energy is produced from some other form of energy by means of a suitable converting apparatus, including the generation apparatus and all associated equipment owned, maintained, and operated by the Generation Provider. Generator The physical electrical equipment that produces electric power. Sometimes used as a brief reference to a Provider. Generator Reactive Power Capability The amount of reactive power (VArs) that a generator can produce or absorb from the electric system to which it is connected. Grid A network of conductors, generally termed `feeders', used for the distribution of electric power. Page 45 9t' 02nd idnualut Clajvs uro aatuaiq Imoato ao goltms v juauno jo junowt ogjL Qpvdvj 8updnjjajul *walsXs omoolo ltagl!u - d atp tp!m ,( ;tltov3 5UTIRzau02 s,aapinoad atp jo uoijundo lallutud jo3 uoil*oouuoo luo"133la luotsXgd atlZ uopaauuoa.ralul (V861 ggal) 'panaasazd �Ilut�uvjsgns sdigsuotjvlat asL atp u;im 1inoito Ximiad sli 10 321311 .to luouno alp `uoiliodo.zd umou3l puLl aitutjap v ut `jinano Stepuooas slt ui aonpoidaz of popualut si lugl JODUoJsut?.tl V .lawofsuml juatun4sul I '(Z66T gggl) Xipi mnb liauompun3 atp jo mILIA suu atp 01 JuaJuoo aiuouzreu atp jo onlnn (suu) omnbs uratu loot aqj jo opm atp st poutjap si anlen still. •sotuotu Lq jo aouasoid atp of onp ivauno .to 39UII Jo anRm M IS jt?Juat Llpunj ails jo uo i1I OIs IQ uop coma aluowipm 'otuotujVtl puooas all pallt?o si Xouonbaaj Imum punj atp aotml si jugj ,Couanboij R tpim ivauodwoo L `aldtum .to j •Xouonbazj pivautrpunj atp jo aldtllnw j u ajut uv si wqi Xouanbaaj V 2utnLlil X1tiut?nb JO anRm atpotjad v jo ivauodwoo pptosnuts d azuowjvg •Souonbaaj ao pu000s tad saloh 8utjouop to of oql (zH) 21.ram H •puno 2 atp puu siolonpuoo pazi2nuo ajow ao auo uaamlaq mop wouno oploolo Imoguawtun ud linv j puno g - 2uipuno S angoaioid polluo XIILnsn si stip :linoato atp ut ivautdinba jo aoatd to iinauo t' Mou ao uo ouop i?utaq si 31aom Xuu 3 q Xluo popunozi? a.re siolonpuoo Ilmi a `sosodind ,�la3us ao3 •(sllon) luilualod leotalaala jo oaaz atp sp .to aolonpuoo P su quva atp of 8utuajaa ut liom luolmala ut pasn tuaal d puno g vssopo uoissimsuv l;pagjjvM.ro prvpuv ;s uopaauumma;uj cf,/ ndard for Railbelt Transmission ( ///rGI VV /s'IVVV��v •. Interruption The loss of electrical supply to one or more consumers or facilities. Inverter A device that converts direct current (DC) power to alternating current (AC) p ower. Island A portion of the interconnected Railbelt system that has become isolated due to the tripping of transmission system elements. ( "Local" Island - A portion of the transmission system, often a single line, which is isolated from the main system and energized by a local generator.) Islanded Separated from the rest of the electrical supply grid. K Kilovolt (M One thousand volts. Kilovolt - Ampere (M) The product of kilovolts times amperes. Used to refer to high voltage alternating current systems. Kilovolt - ampere - reactive (Mr) A measure of reactive power that is required to regulate system voltage. Kilowatt (kW) An electrical unit of power that equals 1,000 watts. Kilowatt -hour (kWh) One thousand watts of energy supplied for one hour. A basic unit of electric energy equal to the use of 1 kilowatt for a period of one hour. Page 47 St a2Bd •SlIvm uoiljiui aup (A N) nvMvo •uosiad e jo uoilo, lowip aqi Xq Xpoilmolm -uou palmaado si goJims Ioauuoosip IL murw d •aamod jo ooinos 3141 woi3 Imoiio e loauuoosip of posn aoinap 3uig3jims jLIoiupgoauz L, Si goIims Ioauuoosip d Y 13auuoosla 1vnuvK IMI •N.iom Injasn sagsijdw000r ;i oiojaq pairdissip si ;uqj XRioug sasso7 TIRp XjiVp an luouplad mgjo pur `siiodaa opw `s2uipvai `scout `suoilt,zado uoiat,is jjt, 2uipaooaz ioj wogs pol - asool io `31ooq `opj .iaindwoo V 1 3Nfl dVl HOIMS 9Nin dVl "IX SBHO11MS H0109 - SS 3NIl •poddt,i si auil aql aaagm iuiod aqD w auij saaump uoissiuzsut,aZ v gJim auil -ui polrool Si Jrgj golims loauuoosip d �[a�1Ms .ro�aa1as auz7 •�mozio uoijngpjsip .io uoissiuzsuLll oiiloaja ut, jo saolonpuoo OOJLP oqi se 3o ig2nogj ,�Iit,UUoN, auT7 u3mod angot,aa i?uiXIddns oligm aamod pai sgiosgt, iojot,3 aamod Suipt,al R 2uint,14 pt,ol t, `,ilas.ianuOD •(side) .iamod an 3uigaosgv aligm (slit .iomod Irw soilddns aoiou3 .iomod 3uipuol e glim aojt,aauai? d •.iomod It,ai 3o u01133zip alisoddo agp ui smoU i3mod aniJot,aI uogm s.in000 .ioiovj aamod guipLoj, d .ro�av� .ranlod 8ugpva7 Z vssolo uosssimsuv l ;1agpzvg Jof prvpuvls u0naauummami Interc onnection Standard for Railbelt Transmission Glossary N Neutral The common point of a star connected transformer bank, a point normally at zero potential with reference to the earth. Non - Utility Generation Generation facilities that are owned and operated by a person or company other than an electric power supply utility. C Ohm The standard unit for measurement of resistance of an electric circuit; generally the resistance to the flow of electric current. One -Line Diagram An electrical schematic drawing which represents the phases of a three -phase electrical system as a single line. Online Reliability ( 1, uo ' ) l OH Where: UT: Is the number of Transmission Line Trips UO: Is the Transmission Line loading just prior to the Trip OH: Is the number of Online Hours in the requirement period Online Reliability is a measure of the impact to The System that transmission line trips can have. Transmission Line trips at low loadings yields a low number as do lines that trip infrequently. Open - Transition Mode A method of switching generation from one system to another without connecting the two systems. This can be accomplished by employing a transfer switch with break before make contacts (breaks contact with one system before making contact to the other system). Outage A condition existing when a line or a station is de- energized. Page 49 09 a$Vd •i?uiplinq u utgpim sutaisXs uonngixisip .to `slinono uoijngi.zjsip XaL sL gons `XIlvool .tamod jo Klddns olm * otuuti agl .toy sa2RIlon zamol trim palsualuoo su .iamod ouloala jo uoissitusuril .to3 posn 32UIl SUL' :aa uonngiajsip v .to uopulsgns L jo 2uipuim 02RIlon gig agj SP patapisuoo Xllntu ON dims {yd •.zamod ani�o�ag 01 aajag •zamod antJoLIat aniItsod ,sgiosgt Imp iolmouaj? L, to « saantlap„ )Llgl pRol anpioeduo a trim pajvioossL st .tolot3 -iamod « ?utpval„ V •aamod antIoRQJ antjtsod « saantlap„ leqp aoIeaau32 V gaim paIRioossU oslt? si aoim� tamod «ftHel„ d aamod aniJoea.t QApisod ,sgiosgL,, jrgj pool anTionpui Sllogm .to SlImmd L glim palmoom st ioioLj zamod « ?ut22Ll„ d •asLgd ui oiP ;uaztno pun 02LIJlon aq) uagm Sliun si aoinj .zamod aqZ •osugd uan12 Ll Jo 02163110A putt juanno agp uaamiaq aouaaajjip al2ut osngd aql jo outsoo oql si .tolovi aamod •zamod iumddv of zamod lunjou jo oilm oq L .rojan j iaMOd - Xi? aua i?utuuojsuL zo Sui.uajsuUaj jo olm atuil aq L Jamod •(afumgo digstaumo jo iutod) tuajs,iS s.taump uoisstuzsuLjl atp laatu slua&I annoadsaa rtagl 3o osogi .to siolonpuoo s,.tapinoJd ao pUol aqi atagm miod aq jL uoyaauuoaralujfo mod 'piaS oimolo ilogl!LH oqi of jamod Sutaantlap Jo osodand agp .to3 zo aoua Ouilmodo s,.iowolsno oqj aoj Xlolos -3q Xm uoijundo iallviud 'IsIan aotn .zo Xjilio IJ 2utjU .lau33 aql of tuaisXs jjogliu2I zip tuo -li mold uvo iomod uotlipuoo stgl aapun 'Pi- oiz�oata ilogpuH aqa of paloauuoo XllLoi.zjoala aligm ,OIL ua�' jo uoil *aado atll uo madO1a11njnd N ST u •paPo i �isap uonsanb ut watudtnba goigm ioj jngj u .tagBiq io pansop ;uql uL zag slsop T a .gv)1on.raa p •uotjutado ski 2ui.tnp snivreddr 3o 000id .to autgoLw t? Xq paaanilap ,C2.taua aqZ IndlnO vsso1O uolssiwsuvjl jjaqjjvMlof p.InpunIS uoyaauuoa.ra;ul Interconnectio Standard Railbelt Transmi Provider One who produces electrical power and energy. In the context of the Interconnection Standards, the term Providers typically refers to the owner and/or operator of generation. Protection All of the protective relays and other equipment which is used to open the necessary circuit breakers to clear lines or equipment when faults or unacceptable operating conditions develop within the power system. Protective Devices Devices used to protect equipment during abnormal conditions. This would include protective relays, whose function is to detect power system conditions of an abnormal or dangerous nature. It would also include circuit breakers or other interrupting devices used to protect the generator, associated equipment, and the electrical system to which the generation is interconnected. Protective Relay A device whose function is to detect system faults, defective lines or apparatus, or other power system conditions of an abnormal or dangerous nature and to initiate appropriate control circuit action. Provider One who provides electrical transmission plant. In the context of the Interconnection Standards, the term Provider typically refers to the owner and/or operator of transmission plant. 0 Reactive Power The component of total volt- amperes in an alternating current circuit where the voltage and current are out of phase by ninety electrical degrees. It is measured in units of volt- amperes reactive (VAr), kVAr, or MVAr. It represents the power involved in the alternating exchange of stored energy in inductive and capacitive electromagnetic fields. Although this type of power supplies no useful energy, it is an inherent requirement for all alternating current power systems. By convention, positive reactive power is "absorbed" by an inductance and "generated" by a capacitance. Reactive power transferred over time is measured in VAr -hours (VArh). Refer to Power Factor. Page 51 ZS a2vd -uzaisSs jjagpX agl woj3 i3mod aniaoa.z zo puas of �jijiqu otp inoipm Suilundo si augl uoijujouaD alvrvdaS •saoinJOS s,jauinsuo:) agp of siouuojsuzz; uopn%ilsip jo sourpu000s OqI sloouuoo go!gm uzaisSs ivazmo 2uptujaijt 35t moj d uualsdE uopnq kivpuoaas • ?uipuim Xreuiiad ag) UVIP a &IIjon .zamoj v 1u polundo ijjuuuou si goigm zauuopuazl r 3o Ruipuim OU kivpuoaas S •uzajsAS alp jo Xouonbaaj junuosaa pinivu L of puodsa.uoo wqi soiuouuLq Xq posnuo sasuljonnAo sa2vjp0nJanp Juvuosag - Imoaio mJ13313 zagIouR ut JO OWLS agp u ao jaglour jo uo agj loajju of 1moaio oixIoaja auo Jo uotIipuoo agp ut uOTILIT In L Xq anijiondo si jRgj aoinap d &vpag •ouij 16 ui aoionpuoo puopippr uu Sutjjvlsui zo `aolonpuoo Xjiotduo rag2Tg um igj juauiaoejdaa sanjonut Sig; `fjjeoidX j, - auij 2upsixo ut ui aolonpuoo agj Outou*jdoN 2uuopnpuooad •uoijou fLIoj Xq pouado svg;i aaip, joVojq i!nzwo u asojo uTuBu oZ asopaad - spuooas maj e u1RgI 132 ou sjRnaaJui (3 Suipodai gjim `suoddug 1! se poliodaa uauQ (v ;vp) atugu load 'qml/ j 30 (q k :j) smog- jjrmojpj ui paansrow si otup nano paiituisuuaj jo pasn zamod jt,a2j - ;vag puu liom jpoturgoaui Suipnjoui `XRioua jnjasn grim porposst zamod potaloaja agj si sigZ -MW zo `A&:j `(M) simm ui paansraui si puL jamod OATIOU pajjUo osjU Si 11 •asUgd u1 aju juauno PUP 3&1110n agl wagm jmojio op pop uL ui sajadwv -jjon juioi jo luouodwoo agZ .raMod pvad •aamod anpORO -d aaS (siVA) sajadiuV -11oA aa;avad vssopo uossSZUisuvrs ipagpzvg io prvpuvls uopaauuoajajul Interco nnection Standard for Railbelt Transmission Glossary Separate System A generating system which has no capability or possibility or connecting and operating in parallel with the Railbelt system. Setting (Protective Relay) The values of current, voltage, or time at which a relay is adjusted. Shared Secondary The condition which occurs when a Provider interconnects with a local utility on the secondary side of a distribution transformer, and other customers may also be connected to the secondary side of the same transformer. Short Circuit An abnormal connection (including an arc) of relatively low impedance, whether made accidentally or intentionally, between two points of different potential (IEEE 100 - 1984). Single -Line Drawing See One -Line Diagram. Solid -State Equipment Equipment that contains electronic components that do not use vacuum or gas filled tubes. Discrete semiconductors (e.g., transistors, diodes, etc.), integrated circuits, or other static components such as resistors and capacitors are used for the electrical functioning of the equipment. Note: Equipment that uses a cathode ray tube for display purposes, such as a television or computer monitor, may still be considered solid -state if the other components within the equipment are solid- state. Step -Up Transformer A transformer in which the secondary winding has more turns than the primary, so that the secondary delivers a higher voltage than is applied to the primary. Stiffness Ratio The ratio of system available fault current at the point of interconnection to the full load rated output current of the installation. Supervisory Control A system by which equipment is operated by remote control at a distance by means of some type of code transmitted by wire or electronic means. Switch A device for making, breaking, or changing the connections in an electric circuit. Page 53 bS a$bd ;uazsuvr,L wazrno puU 32UIl Jo anly3n Jo s33uvgo grim Xilunsn `Xouonbaaj OWES aqi it sjmo .ragjo azow .ro auo wor3 x2.rauo : suuojsutal uo orIau &Iuzo43010 goigm m `sued Su lAOW Xisnonuiluoo inoglim `aornap 3 31 3313 ud Jain rofsuv r,L •uollmol alouraz L 01 uorwool k6'la1 aql WO.IJ lru2is dul alp Iiuzsuuai of pasn s1 lauuugo uop eoiunuTwoo L goigm w dial mwai 3o uuoj d du,L iafsuvr,L 1v;uaurvpunf fb apnllldury fo arvnbs °/HOOT x sazuouu 11v fo sapn;lldury fo sarvnbs fo urns — QH.L *(Z661 S 9991) luluOwUpun3 aql jo ivaoaad v SL possaadxa `Xipumb Imuompun3 oqi 3o onlLIn suu agp of lualuoo oiuommiq age jo anlLIn (suu) arenbs uvow 100.1 aqj jo 011vi aqZ (am,L) uov coma azuouuvg 1v;o,L •aoloalap hututid oql wozj aourlsip L, IL, palaid.zalui oq of wowainsrow aqj siiuuad wqj lauuLgo uoilmiunurruoo L jo piu agl gpim iumaans oW (Nua;aulala,L) d4aulalal •golims 101331as aui-I aas •auil s.raump uoissiuzsuL'aZ L olui sdui ouil deb aql alagm oobld aqj 7L autl d�� * ui pmool si vgl golims 13auu03srp d ya;zMS auz7 dvl Z •��rado.zd �o a3il aaSu�pua o� �ia�i?1 xljuauruzun sr .zo •szauznsuoo of aoin.ras oirloolo jo uoildrusip IuR3i3iais luauruzurr ur lInsar 01 XIOTI st goigm woisXs s,�vjpn u uo u0111pu03 d ,'aua2jazuj tua;sds •.�Iipjn Xlddns 3111oa10 u jo sop!pm3 2uijngi.rjsip pule `2uijjiuzsuLj, `Suilviouas a�rlua ag b ura;sds vssolo uoisszursuv l jjaqj!vH p rvpuv ;S uouaauuoa ra ;ul Interconnection Standard for Railbelt Transmission Glossary A change from the steady -state condition of voltage or current, or both. Transients can. be caused by a lightning stroke, a fault, or by switching operation, such as the opening of a disconnect, and may be readily transferred from one conductor to another by means of electrostatic or electromagnetic coupling (IEEE 100- 1984). Transmission Facility Transmission plant includes all substation equipment and associated facilities used in the transfer of electric energy from one location to another and or used to step up or step down the voltage entering or leaving or on such facilities owned, maintained, and operated by the Transmission Provider. Transmission Line A line used for electric power transmission. Distinguished from a distribution line by voltage. Typically in the Alaskan power transmission system, lines rated 69 kV and above are transmission lines. Trip Indication A display or indication that a circuit breaker has tripped. This indication can be in the form of relay targets, annunciator alarms, sequence -of- events recorder logs, SCADA alarms, etc. U Undervoltage Protection Upon loss or reduction of voltage, the protection device which interrupts power to the main circuit and maintains the interruption. Uninterruptible Power Supply (UPS) A power conditioning and supply system that provides a continuous source of power to equipment (e.g., computer systems) during short -term power outages or surges. V Page 55 9S aSud •XUll nano iomod luouloolo sp.Tooaa io/puu saznsvow go!gm luownalsui uV jalaIV jnoH unog 3o poi.zad R aano pauznsuoo io poonpoid (slium) nmod ouloolo Inn 3o wnsnw d (VAT) jnoH - zamod 3ploolo Ira.T 3o Iiun agp si sluoswdaa Ilum age SUUal Iuoi.T op ul . (Is) SI!Ufl jo Wolsss ltuoiluu.ualul agl ui .Tamod jo Iiun oq L "Ul W •siolmni pur simionduz) pagoiims gr auop aq osl, Xuw gi?nogplu `DAS uu sE Bons aoinap u 2uTsn pagsilduz000u si siq 1, •onlLIA pauiuualapaad a 01 a2LI1IoA ssnq u jo loaluoo agZ uo . qvin2a,y a8vlloA - sazadm -1I0A ui .Tamod juamddu agl urge ssol si slium ui nmod on.zj agi luauno pur 313BIloA uaamlaq oouaja3jip asugd �uu si aaagj .ianauagm 'iue 3i `aoua -pjpP osegd agl of aouazajaz inoipm sondwu puL sJloA 3o jonpoid a p of Itnbg - Imo.Tio luouno SuTluuaallu uv ui zamod luareddt jo Iiun y (VA) ajadwV -IIOA •uzalsXs pTnU L ui a.Tnssaad goui arenbs tad spunod agl of olquredwoo si sigj `XIsno2oleuV •Ijum auo ST sluiod asagp uaamlaq paludissip Xi?nuo agl uagm `aaadmu auo jo luouno luulsuoo u i?InXjauo aolonpuoo u jo sluiod oml uaampq Iuilualod oppala jo aouajajjip 3q L II OA z(IIUm) — JLIA) = .reA :a.Tagm Iinojio U OAl2 L' UT SOALIm OUTS 05RIloA puu juauno uaamlaq aoua.Tajjip agl jo uoissazdxa ur si al - aamod aATIoL1aa jo luouTa.msuow 3o Itun d (VA) aaljavaM dUIV ;IOA vssolo uozssiwsuv l ;Iagllv2r Jof p rvpuvIS uozlaauuoa ra;ul BULK POWER SYSTEM FACILITY AND END USER INTERCONNECTION REQUIREMENTS TO THE RAILBELT TRANSMISSION SYSTEM 6 ...................................................................................................................... ........................... waalajw "XX 6 .......................................................................................... .......................O I NOISSINiSA VHJL 'XIX ................................................................................................ ....................... ON IAV'I" IIALLJII,L02Id 'IIIAX 9 ........................................................................ ...............'1..... WHUSAS CIKV AJ I IISVI'I98 MAX 9 .......................................................................................................................... ........................... SOml Ly?I 'IAX 9 .......................................................................................... .................... NOILVM(M00j NOIJLV9 nSKI 'AX 9 ................................................................................................... ............................. mosS ou 'AIX 5 .................................................................................................................... .......................... Ql�if I O2I0 MIX 5 .......................................................................................................................... ..................s�xrl.Lnnx.Ls 'IIX b ...................................................................... ................... SNOILVlmf)l. moa IIAII'I NOISSMSNVH L 'IX b ..................................................................................................... ........� IOI.L �� I � Ai0 � 2Id,Ll � iI 90 JLNIOd 'X £ ..................................................................................................... ......................... S21SVHJ 2[JNVIIVONa 'XI £ .............................................................................................................................. ......................... . IIIA £ .................................................................................................................... ......................... SSII33V d.LIS 'IIA £ .................................................................................................................... ............. SdI.LI'IIgISNOdSHI .IA £ ............................................................................................................................. ....................... 'A z.................................................................................................................... ........................SNOI.LI JH(I 'Al z......................................................................................................... ..............................A LI'IIgd�I'Iddd 'III I ............................................................................................. ........................ S,LNII 30(1 HaNguagam 'II sluama iinbag uotlaauuoj Slitiav33 ltagl!vH XX SUPERVISORY CONTROL AND DATA ACQUISITION SCADA ..................... ............................. XXII. OPERATIONS ............................................................................................................. ............................. XXIII. VOLTAGE .................................................................................................................... ............................. XXIV. REACTIVE POWER CONTROL ................................................................................ ............................. XXV. RESPONSIBILITIES DURING EMERGENCY CONDITIONS ............................. ............................. XXVI. MAINTENANCE OF FACILITIES ............................................................................. ............................. XXVII. FUTURE MODIFICATIONS ...................................................................................... ............................. XXVIII. DELIVERY POINT POWER FACTOR ..................................................................... ............................. XXIX. DELIVERY POINT POWER QUALITY .................................................................... .............................13 XXX. DELIVERY POINT METERING ................................................................................ ............................. XXXI. DELIVERY POINT AUTO - RESTORATION ............................................................ ............................. XXXII. DELIVERY POINT GENERATION ........................................................................... ............................. XXXIII. DELIVERY POINT PARALLEL OPERATION ........................................................ .............................13 •03141unuoD lu0ul32uuvw aiijawl aql Xq pagsilgLIso s;uauiala uzaisXS iomod )ling jo uoiliuijap agj loow lugs ulalsxs tuoiJloalg 1I atp jo sluaulala asoip su paugop si — w3lsXS uoissiuisuu .,Z •a •uiajsiis J;Dglo agl olui 2uTpuosuo io i?uTj33j3u sulajs,�s 3141 30 3110 ulgl!M Juana uu jo �iI!pq!ssod age aziunuitu zo/puu l uanaid of pou2is3p are sluiod uoiloauuooaalui lo3 sulajs�s uoiloaload •uoiloaaip aagjia ui mold of zamod ioj olgissod si 1! wqj lions wolsKS Iuoploalg liagliu2I age grim lalluaud ui polmiodo XIluuuou are smod uoiloouumiolul •sulaISAS uOISSIAISUUJJ an TI oadsoi so o ml uaamjaq uo jo juiod u si ,Iuiod u01133uu001alui„ ud - 1 1110 d 1101 •q •opsi .iajouaugo sigl ;un000u olui Ruivi pau2isop aq Xvuz miod SIDATlap agl Ju sauzagos anuoaio.id oql sngl puu `(juiod Xaanllap aql 01 uTOISSS uolSSIWSUL.il agp ulozj `•a•i) iuiod XJOAllap aq; SSOJou uolIoa.zip auo ui Sluo sMOU Xlluuuou -amod (ii :ulalsSs uoissiuisuu.zl aq, uloj juiod S.ianllap Bans san.ias Will XIiiiou3 uoissiuisumi u 5upoauuoosip Sq juiod S.ianilap u 01 aoin.iaS puodsns SIluiliud io Slojiluo ioiplo of pouSisop are uials,(S Iuoi.iloalg iiagiiull pojuA ?QIUI aql Jo SauzagoS anpoaloid agl (i :s;ulod uoiloauuooialui woij sjulod Xaanllop gsini?ui sip of posh XIlujauaS oq Sum soilsi.ialourugo omit - spool siowolsno lunpinipui of .iomod agp s.ianilap SJOIRuiilln goigm salliiiouJ to uialsAs s,Sliluo JoIllouu put uialsXs u oissi ui s umi s,jiagiiu - agi uaamlaq uoiloauuoo 30 iuiod u si juiod XJQAIlap„ d - luiod SJOAilaQ •e suoiliUU3G 'Al •(zl '3H 1 11 110 1 -auo) zH 1 Sq Souanbaa3 ulalsSs paloauuooialui agj 2uinoul Jo olquduo oq of punoj si salpnis uiaisSs pajinbaa agI ui pai3iluopi su puu uoijo-3uuo3jojul 3o aulil agj It 3311IUiuioD luaulaSuuL omoiul agl Sq paldopu sasuo goludsi tk p Smpunoq agp IsuiuBu p salouo2umoo Z - N olqugoid ao I -N Xuu jo ilnsaa u su 'Iug1 paiunluna W OI uugl .laluoB solilpou3 jasn puo jo uopoauuoo luoiiloolo agl su pouijap Si uolloauuoolalui spirpuuIS asagl ul •swow3iinbai luoSuials aIOW anug Xrw .iasrl pug agp of paloauuoo.ialui soilililn Imo-I •swouiojinbai timpouuowolui wnwiuiw gsilquiso of popuajui si puu sluauialo ulalsSs iamod )ling su paluu &sap sluauula osogp Xjuo of soilddu luauinoop sigZ liliquail V- •III 3 IuL , Iq I3ai Illmoijualul •II uoz�z�az zaads u8zsap v aq o1 papualm iou si juazunaop szz1,Z •(spmpumS -Qu2 viddp ipagllvy ayj u7 pau1fap sv) aajl2z wok juazuasvuvw azlrra1u1 agl JO UOIIQ13Sip agl IV `aulij .fuu It' `uotsinaa 0 133fgns am splupuujS asagd, V. Intentionally left blank VI. Responsibilities It is the responsibility of the facility owner to provide all devices necessary to protect the customer's equipment from damage by abnormal conditions and operations that might occur on the interconnected power system. The facility owner shall protect its equipment from overvoltage, undervoltage, overload, short circuits (including ground fault conditions), open circuits, phase unbalance, phase reversal, surges from switching and lightning, over and under frequency conditions, and other injurious electrical conditions that may arise on the interconnected system. It is the responsibility of the facility owner to provide for the orderly re- energization and synchronizing of their high voltage equipment to other parts of the electric system. Appropriate operating procedures and equipment designs are needed to guard against out of synch closure or uncontrolled energization. Each facility owner is responsible to know and adhere to all applicable regulations, industry guidelines, safety requirements, and accepted practice for the design, operation and maintenance of the facility. VII. Site Access There are situations where some equipment that is owned by the local Transmission Owner is located within the Customer's facility. This is often required for data acquisition or metering. In these cases, installed equipment owned by the local Transmission Owner will be clearly identified as such on the appropriate station drawings, on the reference documents and at the site. Site access is to be provided to the local utilities' employees where their equipment is located within the Customer's facility or property. VIII. Safety Safety is of utmost importance. Strict adherence to established switching, tagging and grounding procedures is required at all times for the safety of personnel and equipment. Any work carried out within a facility shall be performed in accordance with all applicable laws, rules, and regulations and in compliance with Occupational Safety and Health Administration (OSHA) and prudent utility practice. Automatic and manual disconnect devices are to be provided as a means of isolating all energy sources from any particular element of the power system. IX. Unbalanced Phases Unbalanced currents and voltage are to be controlled by each party on their respective side of the interconnection. However, it should be realized that switching devices, such as breakers and switches, are three phase devices and can fail with only one or two poles closed. It is the responsibility of the facility owner to protect their own equipment such as generators or transformers from damaging negative sequence currents or voltage. •snwoisno sji anaas io .zamod 11wsueaj of nump uoissiwsuujZ luool agj 3o Silpq agi pulino jou Ilugs X11liou3 aasn pua aqj uiglim s1lnuj Iroizpalo Sui.realo io Suigolims ILnuuW •asnuo olgL puL juaprud aoj ooinias jo ino ouil uoissiwsuual waasXS jIagliu2I u 2uiVi wozj nump uoissiuzsuril ILool agl uimisw jou pinogs uoilmn2guoo uopoauuomolui Sud •suoiJoas gj2?u3l0nVm .zalrenb ppo of anp isol aq osle uro slbu5is ioizreo auil aamod •paaPi 01 anp WOIS is XLIIaa anpoaloid agl of suzalgoad a5LIaanoo sluosoid siq L papion� oq of are ouil uoissiuzsurij v of pap ipoojip pLol paioouuoo paa3 of sdul Suo-I •suoiju$ilgo aoinias uoissiuzsueal Irnimiluoo sappua alagl!LX sagio jibdwi .zo slmoiio wojs,�S IiaclPLIN agl jo X1111gnduo agj joijisai jou Ilugs uzagp olui dool uoissiuzsuual agl pur sopitiou3 mau agp 3o sSupma puu uSisap agZ •Xlilion3 mau agl gSnorgl podool aq of slmogo uzajsXS jlagl!L,W aaow ao ouo aamboi XuTu uzalsKS Iuoijloalg ilogliu2i agj of suopoauuoo mau auzoS •pazmboi aq 1pm luauzdinbo uoiioaioid put suoilmiunurwoo jurpunpa.z put `panlonui suotltisgns pug souil agl ioj poildd oq lltm rizaji.io iuiuuuld AmoSuiluoo Z uagl `pald000t si souil lmiuuai aaigl jo uoponi1suoo mau 3l Pu •uzalsXS leoimolg llogliL ag1 uo paaiiuznd jou XllmouoS si souil luuiuual oanp jo uopon isuoo maN •pazmbaa si 5uiddiii paads g2ig wogm pup (luauno jlnvj paiiuzil) paaj vam gjim Xlluioodso 130jozd of jinojjj!p Xiauu.nxa are souil Imiuual oojgj, •uzaisXS Imimolg llagl!u - d ;DIP I"I!M paptonL' aq of are suomjn2j uoo uopoauuoonjui luunwal winos aaagZ suo.1ean Uuoj auiZ uoissiuisuval •IX •Xj!.iogpnd i?uiouvlvg Iuool agj 3o lozluoo owtutiln agl aapun oq isnw puu .zaump uoissiwsuuzZ Irool agj Aq uoijisod undo agl ui olgjool oq isnw aoinap 2?uiILIIosi STgj •uzaIsXs U OISST W S UB11 ;lagl!vN agl woaj soijilioie3 agl 5upioIosi Algisin puu XlleoisXgd 3o olgeduo oq jsnw `goiims loauuoosip polmodo iiuri? e XIILIOIC I `aoinap 2uiInlosi sigZ •uopoauuoojajui jo juiod agl lE paljnIsui aoinap �?uiJVIosi uL 3ALq jsnw Xaiaogpnd 2uiouvlrg Fool agp ,�q pollowoo put, pmuodo Xlalos jou are jugj wolsXS luoiijoolg ilogIiL,2I agj of 2upoauuoonjui soij!pou3 •sIoauuoosip zo sagoiims poumo .zasn pug Wv jo puage palpool aq Ilugs siouuojsuwj luouno put 02n1I0n Suuajauz s,aaump uoissiuzsutJZ fool agZ •aoinap Suildnualui Xitwijd u g2no ql uzajs,�S luoiMoIg jlogiiv2I agp of paloauuoo oq jsnw Xliliou3 2upoauuoonjui agZ •olquopouad su iuiod uoiloauuoozajui aga 01 asolo SU papinoid aq pinogs juauzdinbo 2?uij;)I;) w -juiod ams agl air uopoouuooaalui jo juiod agj put digsiaumo . II!povj jo 32utgo agl �Ilvnsfi •pogi.iosap XIrealo aq of si uoiloauuoonjui jo juiod ;DqL u0113auuoaja;ul 3o Juiod -X Reliable station and breaker arrangements will be used when there are new or substantial modifications to existing Railbelt System switching stations affecting transmission lines rated at or above 69kV. XII. Structures Transmission and substation structures for facilities connected to the Railbelt transmission system shall be designed to meet the National Electrical Safety Code (NESC). Substation bus systems shall be designed to comply with ANSI/IEEE Standard 605, IEEE Guide for the Design of Substation Rigid -Bus Structures. XIII. Grounding Each interconnection substation must have a ground grid that solidly grounds all metallic structures and other non - energized metallic equipment. The transmission line overhead static wire (if installed) shall be connected to the substation ground grid. All transmission line structures must be adequately bonded and grounded to control step and touch potential in compliance with the NESC, and to provide adequate lightning performance. All ground wires and bond wires must be adequately sized to handle anticipated maximum fault currents and duty without damage. Transmission interconnections may substantially increase fault current levels at nearby substations and transmission lines. Modifications to the ground grids of existing substations and static wires of existing lines may be necessary. The interconnection studies will determine if modifications are required and the scope and cost of the modifications. Such costs will be borne by the end user. The neighboring utility must have an effectively grounded transmission system. XIV. Intentionally left blank XV. Insulation Coordination Insulation coordination is the selection of insulation strength. Insulation coordination must be done properly to ensure electrical system reliability and personnel safety. Basic Surge Level (BSLs), surge arrester, conductor spacing and gap application, substation and transmission line insulation strength, protection, and shielding shall be documented and submitted for evaluation as part of the interconnection plan. XVI. Ratings The proper rating of facilities is the responsibility of the owner of those facilities. Ratings of facilities must conform to the requirements of the Alaska Railbelt Facility Standards. •sanssi nillo ou suq aaumo uoissiwsuuj L Irool aql papTnoid p3zi2nm aq of uotloauumiolui zip liuuad of numo uoissiwsuu.IZ Iuool aql mollu Bugs aaliturwoD ;uawz& anjolul `poilddt Xpoonoo uaaq anWq s2utalas XRIa.z aniloalord zip puu `Injssaoons oju sisal asagl jj - sisa l gons ssoultm of ig2ij oql anRq IlUgs pun Outlsaa gons jo oopou algruosuaa papinord ag hugs .sumo uoissiwsuril aqZ •.zaumo uolssiwsuLjjL Fool oql of alg idaoou lauuosrad po!j!lunb q pouuojrad oq hugs luowdmbo anrloalord liL, 3o sisal Imopounj `uoporulsuoo 3o uoijaldwoo oql 1d •suopullnlsui autos joj pazmbw si diii aajsuu.r1 V •Iuowdmba annoaiozd oqi of zamod ajolsoi of uoilov 3jvip3ww1 a�fuj Iltgs oqm saaumo sopilloq oqj Xq SUIJOIiuour aIouraa JOJ papino.rd aq Isnw uurIv 321631I0n.Mpun ud •saotnap i3uiddua Ile aluaado of Xliouduo gSnoua gjim pazis aq of si Xiallug aqL •suoiluisgns IIU JU Paptnoid aq Ism Ioaiuoo pue Ouiddun ao3 aoinos aamod hoijuq aftzols DC[ d •suorjuzapisuoo og!oods alis aqp uo puodop uzaisXs uoiioalord oql jo sluowojinbaz u2isop og!oods oqZ •aoulgid000r PUB mainaJ zo3 .sumo uoissimuloaZ Fool agl of su2isap uopoomid pue Io luoo sli Iiuzgns hugs uzalsXs jIaglir2i aqp glim lollurud ui paluaado aq of si goigm XIglou3 gong •u0113auu03 jo juiod aqp 1t uorxvisgns u 3o uoijullulsui aqp winbar hugs autl uoissTwsuujI L uo iuiod v of uoiloouuoD •��tliq�tla� pup Xlianoas uralsfS jamod 3Iing apinord of aapzo ui `XIinijisuas PUB paods 2uimojo -IInv3 paziu ildo su llam SU `saornap 2upicuipi000 uaamIoq .�I!A1I!suas ojunbapu aoj apinoid Isnuz u21s3p aqj, •uoimlord 3o auoz uan12 v urgpim drgszaumo jo juiod aga jo apis gons uo pasn aq Ism luauzdmba 2up rj z ojgtjuduzoD - soured oml uaamlaq uotloaloid jo auoz uourruoo r oiugs Xuuz suulsXs i3mod ftuiofpd - wolsXs x3mod paloouuoojui oql uo pozillin oq of aje suzalsXs futrealo jjnu3 puv sXvlar aniloalozd Ianal uoissiuzsuR .11 `apnz2 XIII!Ifl ui njag aetlaaJOJd - IIIAX •poziwiuiw Xilliquis wojs�s of saouonbasuoo asaanpn glim s3n1jBW3jjR u2 1sap JIB ui paaapisuoo aq o azu luouodwoo wolsXs uorloaloid L jo 31riodo of aanl!Lj aq; gptm sllnn3 asugd aargZ •IauuLgo uoilvoiunuzuzoo jo `ioVojq `,Knlaa aniloaloid `.rauuojsuuaj luauno u jo aznlrej snoauulInwis agl glim jInvj walsSs L 3o 2uinolo sopnloui srq jL •Iuouodwoo walsXs uopoaioid u jo alujado of ajnl!Lj aql glim slinuj punoa2 of ouil alSuis joj algvis aq Isnw wolsXs aamod aqZ •slInvj asngd .3ojgi IIv 3o Ouinolo Imuou aoi paureaumw aq of si �Iipgvls jolvmua2 pun woisXS •slozluoo oilmolnu jo uoijundo joiju uorjuaolsar pidvj 3o alqudno pue sliuril Xouo2jowo sli uiglrm oq hugs wzjsfs oql `parmbar aq kour slmojio uoissrursuLjl jo 2uiuodo ao/puu pool jo uotldnualui polloaluoo aligm ;ianaaS uials S pun jiltg MAX When connection a Developer's project to The System, all additions or changes required on the Railbelt Electrical System shall be installed by the local Transmission Owner at the Developer's expense. All additions or changes to relay and control equipment required at the point of interconnection shall be paid for and installed by the Developer. Entities connecting to the Railbelt transmission system shall investigate and keep a log of all protective relay actions and mis- operations as required by the Railbelt in compliance with these standards. Entities connecting to the Railbelt transmission system must have a maintenance program for their protection systems. Documentation of the protection maintenance program shall be supplied to Railbelt, the NPCC, and NERC on request. Test reports as outlined in the maintenance program are to be made available for review by Railbelt and the NPCC. At intervals described in the documented maintenance program and following any apparent malfunction of the protection equipment, the entity shall perform both calibration and functional trip tests of its protection equipment. XIX. Transmission Reclosing The Railbelt Electrical System operator may automatically and manually test its transmission lines following breaker operations for system faults. This is required to minimize customer outage time and maintain system stability. Manual reclosing and sectionalizing may also occur. Interconnected facilities must not interfere with the Railbelt's operator's ability to quickly restore transmission lines following system faults. Any entity wishing to interconnect with the Railbelt Electrical System must address the implications of automatic reclosing in their design. Automatic reclosing on interconnected transmission lines between utilities will be handled on a case -by -case basis. Transmission interconnections between utilities may be restored from either direction depending upon the reclosing practice agreed by the utilities involved. XX. Meterin Metering equipment may be located at either end of the transmission line but should be installed at the station closest to the change of ownership per the requirements of the local Transmission Owner. XXI. Supervisory Control and Data Acquisition ( SCADA) Each installation needs to be evaluated separately for SCADA requirements by the Local Utility because of the many possible contractual agreements and interconnection configurations. The following data, at a minimum, is to be provided. MWh delivered, MVArh received, MVArh delivered, Voltage, Current, +/- MW, and +/- MVAr, breaker qi!m palnpogos puu pmuipz000 aq isnuz aouuualulM pauuuld •xsta It, uzalsXS IVOIJIoalg ilagl!u2I aqi jo Si!p t,duo jo X1tITquijai aqj aot,ld jou saop Imp jouum u ui pauuo3rad aq llugs wzlsXS luouioalg iIagITu2I ;DIP of pajoauuooaajuT sQlj!j! 3o aouuuajulvw •satlTlTouj p3133uu00jaluT 3o uot;uzado zo `i?uijoliuow `uopoaioid aqj joajja igSiw wqi wotudinbo aatnaaS Jo Ino Xuu Inogt, olguopouid su uoos su paTjIlou aq of sT .sumo uoissiwsuujL luool 3q1, •sainp000id put saopowd ,izjsnpui Xiil!ln juaprud ql!m aout,pr000u uT pauTmim oq of a.ru mc)IsXS JOmod )ling oq; uo saTjTITot i?ululofpd satlIRM Jo aauuualul N •IAXX •.iowuado uralsXS .sumo uoTssimsuu.11 luool oqj Xq pajowip st pool zasn puo aonpai jo `Ino io u1 saijTlTou3 gojims `.ramod anrIot,aa isnfpu Ilugs jowaado Xl!lTouj age `suoTj!puoo ,�ouaj?.zauza 2?utanCl - jowmado wolsXS zaumo UOISSTuzsuu.r 1, Iuool aql ql!m 31vwpl000 puu avoTunuzruoo of pajmbaa am uori?az ilaglTu2I all uT swzlsXs uoTsslwsuuJI aql of pa13auuo3zaluT saTiTiTot,3 jo sioluaado IIV suo.1. uoj aua .iautg aujinp sailillglsuo sag •AXX 3 Iuulg I3 Iluuollualul •AIXX 3Iuulg I3aI Iluuoilualul •IIIXX •uzaisXs Iuoimaig jiagiTu2i aqi uo Xl!lTquTlaa zo smolt .ramod `saSu110n PQJJR Xlasaanpu pinom jugj 2ulgollms Xuu 5uiuuo3aad aaojoq iojaiado uzalsXS .iaumo uolssltusut,JZ Iuool oqi ,ijpou Isnw uulsXS Immoaig iIaglTu?I aql of 2uiloauu0o.zaluT sompouj jo si u odo •.iowuodo wolsXS .sumo uoTsslwsuurZ Iuool aql 3o lt aoud inogl!m wolsXS luoTmaig Ilogpv - d aqa loajju Xlasaanpu XL'W Iugl Jo W31sxS iuoT. mig iloglTud agp jo suomod sozTRzauo -op jo sozT2zauo jugj 2uTgollms Cut, uuo3.r0d 1ou Isnuz uzalsXS Iummalg IlogipuX aql of fuiloauuooaaluT s jo ioviodo aqZ sar�TlTou3 paIoauuooraluT of zn000 sa .Wut,go uagm papTnoid aq of aau sw1aiSuip pawpdn •1sanbaa uodn zojj! nuoD luauz02t,ULM aTualul aqi of pagsiwnj aq isnw swaiii rp auTl ouo uzaisSs juaunD suopmla O •IIXX - airs ioafoad gouo ju paiinbaa aq Ilugs `aadolanaQ aq; Xq aoj pTt,d put, `iaumo uoTssimsuuj 1, pool aql ,�q pasugaind (ITufl lt,uTuu;DJL alouzag) fl L woisXs (uoij!smbod t,IuQ put, IOJIUOD XJosTnaadnS) VVQdDS d •swau o.unboi asogi iaaw of podolanap oq IITm su0Tsop oTjToadS •sw;DisXs uoTjuoTuntuwoo/uolluuuojuT sno q .3nojgl sap and snor.run 01 paptnozd aq of paau Xuw ujup sigZ •suoil!sod gaiTms put, the local Transmission Owner. The local Transmission Owner's switching and safety procedures shall be strictly observed when maintenance is performed on an interconnection. XXVII. Future Modifications Any changes that affect an interconnection must be reviewed in advance of such modification. These include modifications to the metering or protection scheme as well as associated settings after the interconnection project has been completed. Information about expected increased load flows or higher fault currents levels due to system changes must be provided in a timely manner to the Local Utility. XXVIII. Intentionally left blank XXIX. Delivery Point Power Ouality Generation of harmonics should be at a level that will not degrade the performance of the Railbelt Electrical System. XXX. Intentionally left blank XXXI. Intentionally left blank XXXII. Intentionally left blank XXXIII. Intentionallv left blank A Reserve Capacity Planning Criteria A -1.1 1.1.1 Each Load Serving Entity is expected to maintain responsibility to provide capacity for its own firm load. As part of such responsibility, shall maintain or otherwise provide for annually, Accredited Capability, in an amount equal to or greater than its maximum System Demand for such year plus the Load Serving Entities' Reserve Capacity Obligation, as set forth in Subsection A- 1.1.2. 1.1.2 The Reserve Capacity Obligation of a Load Serving Entity, for any year, shall be equal to thirty (30) percent of the projected Annual System Demand of that Load Serving Entity. The Reserve Capacity Obligation of the Load Serving Entity may be adjusted from time to time by the Intertie Management Committee. 1. 1.3 The Intertie Management Committee may determine the annual Accredited Capability for each Load Serving Entity. B Responsibility for Operating Reserve B -2.1 Operating Reserve 2.1.1 Each Load Serving Entity and Generation Owner shall provide, or contract for, Spinning Reserve and Non - Spinning Reserve as required by Section B -2.2 of this Article equal to or greater than the Operating Reserve Obligation of the party. As soon as practicable, but not to exceed four hours, after the occurrence of an incident which uses Operating Reserves, each Utility Participant shall restore its Operating Reserve Obligation by the procedures determined by the Intertie Management Committee. 2.1.2 The Operating Reserves, Operating Reserve Obligation, System Reserve Basis and Allocation calculations may be modified or adjusted from time to time by the Intertie Management Committee. 2.1.3 The System Reserve Basis (SRB) is equal to the Largest Generating Unit Contingency of the system or other such value as determined by engineering studies. B -2.2 Total Operating Reserve Obligation 2.2.1 The Total Operating Reserve Obligation at any time shall be an amount equal to 150 percent of the System Reserve Basis of the Railbelt Electric Grid •swomajinboi anJasag 2uiuuidS sli Ajsilus of posn oq Ipm wql urea2oid 2uTppogs peol So!l!lug ogj anoiddu pue nnainaz Ilegs ooillunuoD juotua2uuvW oiliowl aqZ - wolsXs jjogpw8 agp ut sjoajja 2uipeosuo ao uopupw2op asnuo lou pue Kl!jigejs wolsXs umiumw of se zauuew u gons ui anzasa -1 2uiuuidS jo luomimbaa oql 133uT of paddo.Tp oq ueo puol pajjoaluoo Iugl aanssu Ilugs urej2oid guippags pool oqZ •wLjBoad 2uippogs peol polloaluoo XIleoputuolnu uu Xq p3gsllus aq Xvw an.TasoN 2uiuuidS sappug ud Z'tb'Z •aa;jiuiuioD juow;)SLuuW oivaluj agp Sq pald000e se (suopot.TIsaz ouil ail ao ;DV-I Salpuzg `ojdutexo ioj) anaasaa 2muuids uo suoijoi.Tisai .TO (SSgg puL SO'IIS `ajdumxa .Toj) soomos Taglo pue panjonut U13IS iS DIP 3o puuuTaQ S W31 SSS p011023JUT aql pine UJOISSs aniloodsaa aql ui gull uo shun fupuaaua2 IIu jo XI!pqudeo tau Dip jo ums zip womlaq aoua opp aql se JueIsui U OAl2 Xuu w palelnoluo aq jjegs an.TasoW 2uiuuidS tuolsKS I't uoTjujnojeD anjaso -d SupmodO t,-Z -g •£g 1igigxa oldumo puu Zg `I g sligigxa ui pogposop sejnuuoj aql ql!m oouupi000e ui aajjiurtuoD luatuafeuuw g1liolul Dip Xq pouiuualap uoTju2TIgO 3njas3N OupezadO lino, oql jo a2uIuaoaad iugl aq llegs Xi!lug uu 3o uotlui?ilgo anzasag 2utluzad0 oq.L I'£'Z sanzasQH 2utjuaadO jo uotluoojjV £'Z •3011tU UZOD luowoi ?tuulq aTuajul agp Xq po2uego zo po!ppow aq XuuT uoTloos sigp ui polpoods upajiao OU £'Z'Z •sjozIuoo zouaan02 oiliewolnu 3o uopou g2no.Tgl `.�INomb .io `poijod inoq -oml u .To3 ft,�Iddns Sisnonuiluoo jo ajquduo si jiun DIP Iugl (ANW) peol jo junoum uznuzmm jugj paaoxa lou Ilugs 1I •q , mojaq (q) ump .TaivaB aou atuil .relnoilmd Xuu IL ouigouuz oqi uo pool zip uugl ssol aq jou Ilugs 11 •e :vIjol .To Oulmollo3 oql Aq pauiuualap aq Ilegs sanzaso -d 5upendO .zo3 .ii!pquduo jiun SupenuaO Z - Z - Z •anaasa -1 SuiuuidS -uolsl Pm pautMUIPW aq jjegs uoijLSijgp o uaso -d Supundp Iulod, Dip jo aouujeq aq.L Z I - Z - Z •SISUg anJasaW UJOjS iS aqj JO luaond OOI 01 Juajenmba junoure uu uugl ssal aq lou Ilugs uoijrSijg0 an.Tasmd 2upendO juloZ Dip jo uotliod 3naasa21 SuiuuidS gqZ I.1 -Z -Z 2.4.3 The Intertie Management Committee may establish procedures to assure that the Operating Reserve is available on the systems of the Participants at all times. Whenever an entity is unable to meet its Operating Reserve Obligation, that entity will, within two hours, advise its Balancing Authorities and make arrangements to restore its Operating Reserve Obligation. 2.4.4 Prudent Utility Practices shall be followed in distributing Operating Reserve, taking into account effective utilization of capacity in an emergency, time required to be effective, transmission limitations and local area requirements. 2.4.5 An entity may arrange for one or more other entities to supply part of, or its entire, Operating Reserve requirement. 2.4.6 In an emergency, any Generator Owner, upon request by its Balancing Authority, shall supply to such Balancing Authority part or all of its Operating Reserve up to the full amount of its Available Accredited Capability. An entity experiencing an emergency is not required to maintain its Operating Reserve Obligation. There shall be no obligation of an entity to supply Operating Reserve if the requesting entity is not making full use of its own Available Accredited Capability. 2.4.7 The Intertie Management Committee may assign penalties for non- compliance with sections A and B. C Responsibility for Regulating Reserve C -3.1 Regulating Reserve 3.1.1 Each Balancing Authority shall provide, or contract for, Regulating Reserve as required by Section C -3.2 of this Article equal to or greater than the Regulating Reserve Obligation of the party. Regulating Reserve may not overlap reserves dedicated for Spinning Reserve. Regulating Reserve (both up and down) is required to compensate for uncertainty in forecasting and is established during the Unit Commitment planning process, and as such the BA may then utilize their reserve as required during the course of the day. If a BA exhausts its Regulating Reserve, they are required to procure or commit additional reserves immediately. C -3.2 Regulating Reserve Obligation 3.2.1 The Regulating Reserve Obligation for each Balancing Authority shall initially be set by the Intertie Management Committee. 'suoijoinjui luadw jo wolsXs alp ui soSuugo of onp owil Xue ju sainsrom aagpo aainbaa io anaasag 2upuln2ma s,dg r osuajoap/asRazoui o; lg2lj aul sanaasaz aalaiaTmoD juouza &,urW 311zalul aql £'Z'£ 'mw jo3o ui isoinu otp of do popunoi aq Ipm p3julnoluo os suoijvSggo anaasa -a 2uijloInB3g ail,I, ' i SdD sIi ui uotIUinap o� aip Xq anaasag 2upvjnSag juazmo sli Suisvaaoap /2uisua.zoui q anjasag Suijgn2ag ,Sop!aoipnV 2uiourlug qmn . ppow Ilion aajjtuzuxoD juowo2uuuw aivajul a ll `paliduzoo are soilsirlis Sdo pua iLok zip aai3u `sisuq Iunuue ut, u0 Z'Z'£ Exhibit B 1: Spinning Reserve Components Spinning Reserve Obligation will be allocated to the entities based the following 5 criteria, Largest Unit, Served Load, Unit Reliability, Spinning Reserve Response, and Operating Inertia. An entities' multiplier for each of the components shall be determined as follows: 1. Largest Unit: This component shall be calculated as the ratio of an entities' Largest Generating Unit Contingency (LGUC) as compared to the sum of the Largest Generating Unit Contingencies of all the entities. The Largest Generating Unit Contingency will be based on the maximum capability of those units when operated at temperature corresponding to the average monthly temperature for that region. An example of a Generating Unit Contingency is a combined cycle unit; the loss of the combustion turbine will precipitate the loss of both the CT as well as the waste heat unit. If entities share a unit, an entities SHARE of such a unit could qualify as their LGUC if they have no unit(s) that are larger. This component may change whenever the average monthly temperature changes or an entity changes its LGUC. For the purposes of this section, a wind farm, or similar collection of generating units that use a non - dispatchable fuel supply is a Balancing Authorities' regulating issue. The Farm does not constitute a LGUC. As buss faults and line faults are rare; single points of failure in these assets do not constitute a LGUC. A single point of failure in a fuel supply that may result in the loss of multiple units does not constitute a LGUC. SpinLU = LGUC / Yi(LGUCi) 2. Served Load: This component shall be calculated as the ratio of an entities Served Load (an entities energy requirements including transmission losses and interruptible loads, but excluding economy energy sales; during the peak hour) as compared to the sum of the Served Load of all the entities. The load value used will be for the current month from the previous year. SpinSL = SL, / Yi(SLi) 3. Unit Reliability: This component shall be calculated from the sum of the output of each of an entities unit trips as compared to the sum of the output of all unit trips in the system as collected for 4 consecutive quarters, one quarter lagging. Minimum countable deviations are loadings greater than 10 MW. In the event there are no recordable deviations, the other spinning reserve components will be pro rata scaled to make up for this component. This component shall be evaluated quarterly. •popod uoijelnoleo zip 5upnp VAWM113ul 00euane agp si "H pue poiaad uotjelnoleo oqj Ouimp Xliluo ue jo SIioedeo ,ilmoq ai?euane acp si -D auagm (!x/5)`3 / ( = a IOuidS •xluua imp ao3 suopu2ilgo uids x3mol ui llnsoi Ipm walsXs aql 113auaq of puai gotgm `VAW tad sliun .ugineaH •sliun ,VAW zad,, ui popodau oq Ipm emivaul siomiouo2 gong •Iaags (ol do joeq uo) 2wpodaa uids sappuo ue uo paziuougouXs pue gull uo aq of umogs si Iiun aql wqj .moq goea zo3 paziuoNmu s pue ouil uo paaapisuoo aq Ipm sluun gqZ •poziuoago"s pue ouil uo pue palunoo aq o � o uegp uaHig aq lsntu iiufl •32euane 2utlloi tpuotu ZI 2ui22?el tpuouu auo a osn llim suoijelnoluD •saliguo atp IIe jo eilzaui leoiaolsig aql 3o tuns atp of pauedtuoo se epuati Ieoiuoisig solIpua ue jo oilm atp se palelnoleo oq Ilrgs luouoduzoo sigjL :eiljaul 2uijezadO •S ( ?duuj2RIS)`3 / 3 duzj2RIS = O NNSuidS sJuana Jo .uaqutnu aql si u azagm NUS3 / ( aS/ - I = o dwiNdS •uotje2ilgo sappua ue of osuodsai jo joel pajeadau uo osodtut ueo oou!uuuuo0 luotuaSeurw ailialul alp Imp uoiloues xluo aql paiapisuoo oq jou pinogs uids jo luouodutoo ?1215 oqi ui ;mwoui ud •aOeaane SuulloJ tpuotu Z 2uissel gjuouu auo e oq Ipm posn poivad oqs •poivad aql .iano pouuuuns aq hugs uotlelnoleo Bons goeg •DfID I stualsXs otp Xq papinip poddiui jegj jiun oqj Suplej fq poleos uoijefilgo sappua ue si uoijvSilgo poleos oqZ •iipazo e aq jou llim uoiingij;uoo uanO •aReuane aldtuis e eun pouiquuoo aq Ipm suoumBolui oml ags o. ui llnsau a uimgo of uoi�egilgo otp Xq papinip aq Ipm linsai powi2owi goeg •oouegmisip aql JOIF salnulw 01 pine spuooas 06 uaamlaq uiuSu put `poizad puoogs 06 IePiui ue .zano asuodsaa sli pue uoijei?ilgo Qg -Id:)S soililuo ue uoomlaq Xouaiotjap aqj (uoilvAolui Iepiozadeui se XIolumooe se iseal Je) 2uileusalui Xq paaelnoleo aq llim anuasaa Sumuids sauIiIua ue Jo ssauanisuodsai oqZ •sjuana ile pue sappuo oql Ile jo asuodsa21 anaasa2i SuiuuidS Ieoiiolsiq aga jo tuns oql of paiedtuoo se uoije2ilgO anzaso -d SuiuuidS uagi sli Xq poleos asuodsa2l waosa2I 2uiuuidS Ieoiaolsiq s3ppuo tm jo tuns oql jo oijeu otp put (I) uoipoajuad uaamlaq aouatajjip aql se palelnoleo oq llegs juauodwoo sigZ :3suodsa21 anzasa2i fuituuidS 't, sluana Jo uagwnu aql si u aaagm [('21fl) u 3] 13 / 3 (2lfl) u 3 = 3 2IfluidS •w;DlsXs paloatuuooaalui oql uo stuolgozd i,ouaguuiuoo uag$iq uo ` ,C ` io lInsw agl are goigm sdiri iiun uo `uids jo saoinos u3g10 Xq AA W uoj A#,w Sn poNoeq are goigm sliun Suilsal jo sdiii `suopoofaa pool palnpagos apnloui jou op sdiai liufl Exhibit B2: Spinning Reserve Obligation Spinning Reserve Obligation for an entity will be calculated summing the weighted Spinning Reserve Components of each entity, and multiplying this by the System Reserve Basis as follows: SRO = ( A *SpinLU + B *SpinSL + C *SpinUR + D *SpinSRR + E *SpinOI * SRB Where the weighting factors are: A = 30% B = 30% C =20% D =10% E= 10% An entity has the obligation to participate in the various components per their activities pursuant to Table T1. An Excel worksheet shall also be developed to further explain the interrelation of the components. Table T1 NERC entities matrix. Spin Entity Function component Balancing Authority SRR Compliance Enforcement Authority X Distribution Provider X Generator Operator X Generator Owner LU,UR,OI Interchange Authority X Load - Serving Entity SL Market Operator (Resource Integrator) X Reliability Coordinator X Planning Coordinator X Purchasing - Selling Entity X Reliability Assurer X Resource Planner X Standards Developer X Transmission Operator X Transmission Owner X Transmission Planner X Transmission Service Provider X Time Error Correction Procedure Purpose: Interconnection frequency is normally scheduled at 60.00 Hz and controlled to that value. The control is imperfect and over time the frequency will average slightly above or below 60.00 Hz resulting in mechanical electric clocks developing an error relative to true time. This Standard specifies the procedure to be used for reducing the error to within acceptable limits of true time. Applicability: Balancing Authorities, Interconnection Time Monitor Definitions: Balancing Authority (BA) — The entity responsible for integrating resource plans ahead of time, maintaining load- interchange - generation balance within a Balancing Authority Area, and supporting Interconnection frequency in real time. Balancing Authority Area — An electrical system bounded by interconnection (tie -line) metering and telemetry, where the Balancing Authority controls (either directly or by contract) generation to maintain its Interchange Schedule with other Balancing Authority Areas and contributes to frequency regulation of the Interconnection. Frequencv Bias Setting — A value, in MW /0.1 Hz, set into a Balancing Authority's AGC equipment to represent a Balancing Authority's response to a frequency deviation. Interchange Schedule — The planned energy exchange between two adjacent Balancing Authorities. Alaskan Interconnection — Any one of the Alaskan utilities connected by transmission line operating above 35KV. Interconnection Time Monitor — An entity that monitors Time Error and initiates and terminates Time Error Corrections. Leap Second — A Leap Second is a second of time added to Coordinated Universal Time to make it agree with astronomical time to within 0.9 seconds. Historically, Leap Seconds are implemented as needed on June 30 or December 31 St . ( National Institute of Standards and Technology) Time Error — Accumulated time difference between time based on Interconnection frequency and the National Bureau of Standards time. Time Error Correction — An offset to the Interconnection's scheduled frequency to correct for accumulated Time Error. •spiepuels awll jo uollleaglleo waojlun ainssle of uolloauumalul ayl ulyl!m sioleulpa000 �ggellaa aaylo qyl of puooas LO .0 ulyl!m of allemooe aoaaa awll to uolleoiplou a anssl llleys aolluolN awll uopauuooaalul ayl yluow yoea jo Aep lsalj ayl up uollleoll!lou aoaaa awll uolloauuooaalul - 6 - 1 •uollelnap Aouenbaal lualenlnbe ue 6uunp uolinglaluoo selq palndwoo ayl of Ilenbe lunowe uu Aq (MW) alnpayoS 96ueyoa9lul lau sll las}lo Am �4laoylny bulouleleg ay} `aolluolN auwll uolloauuooaalul ayl Aq peloaalp se lasjjo aq louueo alnpayos Aouenbaal ayl 11 •lasgo alnpayoS •Z•g• L •Iewaou 6ul:aaS selg Aouenbaa3 ayl 6ulnle9l `aolluoW awll uolloauuooJalul 941 10 sanlloaalp ayl of aouepa000le w alnpayos Aouenbaal sll lasso Aew �4laoylny 6uloueleg ayl - }asgo Aouenbaa3 • G•g• L :spoylew awl buimollol ayl to quo Aq u0ll08aa00 aoaaa awll a ul aledlolpled Iieys A4laoylny 6woueleg ayl •lesjjo uolloaaaoo awll •g• ( ... Z9 ZV - ` V `Z -y) slseq Alyluo a uo Aileollageydle pelegel aq Ileys suolleollllou uolloaaaoo aoaaa awll - 6ullagel uolloaaa00 aoaaa awll •,L• � •saapao uolloe anlloaaaoo alleulwaal ao allelllul Ileys,pue aoaaa awil aolluow Ileys aolluoW awll uolloauuooaalul yoe3 - 6ulaolluow awl} uolloauuooaalul •g• L •alea awes 941 118 su0 aoaaa awll a�lew Ileys uolloquuooaalul ue ulyl!m sall!aoylny 6uloueleg Ild 'uolloauuooaajul sll aol aol!uoW ewll uolloauuooaalul ayl Aq paloaalp suolloaaaoo JoJa3 aw!1 HE aNlew lleys uolloauuooaalul ue ulyl!m salllaoylny 6ulouelleg II`d •aoleulpi000 Alil!quilaa a Aq peleulwaal ssalun `anoy quo lseal le lSel Ileys suolloaaaoo aoaaa awll - dots ao plels of sl uolloaaaoo aoaaa ewll ayl aaolaq anoy quo lseai le uan16 eq Ileys eollou pule `anoy IIey ao anoy ayl uo puq pue lilels Ileys suolloaaaoo aoaaa awll •uOU"IM aoaaa awll •5' •awll spiepuelS }o nuaing IeuolleN ayl lsulle6e Allenuue }seal le aolnap aoaaa awll sll eleiglleo lleys aolluow ewll uolloauumewl ayl •t L •uolloauuooaalul yoee aol lslxe Ileys iolluoW awll uolloauuooaalul uy •g• L •pe6uey3 aie Aeql jl uolleollllou apinoid osle Ileys pue `pezign 6ulaq spueq ayl jo aolluolN ewll uolloauuooaalul ayl Aplou Illeys `spuleq Ioiluoo aoaaa awll umo alayl ysllgelse oqm AlsnouoayouAse 6ullleaado salllaoylny 6ul •Z' l •uolloauuooaalul sll of AlsnouoayouAse bulleaado sl 11 ssalun sainp000id uolloaaaoO aoaaa ewll ul eledlolped llegs fl!aoylny 6uloweleg y3e3 • (. • l sluewaalnbekj sluawaiinbaa saolIoead sseulsng 1.10. After the premature termination of a manual time correction, a slow time correction can be reinstated after the frequency has returned to 60 Hz or above for a period of ten minutes. A fast time correction can be reinitiated after the frequency has returned to 60 Hz or lower for a period of ten minutes. At least one hour shall elapse between the termination and re- initiation notices. 1.11. Time correction on reconnection. When one or more Balancing Authorities have been separated from the Interconnection, upon reconnection, they shall adjust their time error devices to coincide with the time error of the Interconnection. The Balancing Authorities shall notify the Interconnection Time Monitor they are ready to receive the necessary adjustment to time error as soon as possible after reconnection. 1.12. Leap Seconds. Balancing Authorities using time error devices that are not capable of automatically adjusting for Leap Seconds shall arrange to receive advance notice of the Leap Second and make the necessary manual adjustment in a manner that will not introduce an improper Interchange Schedule into their control system.