Relay Coordination

X Gas Field Development (Phases Gas Field Development (Phases CONTRACT NO. PROJECT COMPANY SITE 0 Rev. DOCUMENT Doc. No. : Gas Field Development (Phases X) CONTRACT NO. PROJECT COMPANY 23/05/08 Date X Project No. : DOCUMENT No. RELAY SETTINGSTUDYDoc. No. : NC-) RELAY SETTING: ONS : X(PHASES FROM MPC: X:X Issued forDescription GAS FIELD DEVELOPMENT PHASES ONSHORE FACILITIESProject No. : ONS-09-0132kV TEMPORARY POWERRELAY SETTINGNC- RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) RELAY SETTINGONS-09-0-CO X GAS FIELD DEVELOPMENT(PHASES X)FROM MPCX X GAS FIELD Issued for ApprovalDescription GAS FIELD DEVELOPMENT PHASES X, ONSHORE FACILITIES 0-CO-4127 32kV TEMPORARY POWERFROM MPCRELAY SETTING-6340S-550-1600RELAY SETTING (CT2000:5) 1600-0004 ) RELAY SETTINGCO-4127 GAS FIELD DEVELOPMENT)-132kV TEMPORARY POWER FROM MPC GAS FIELD ApprovalHir.ORIGIGAS FIELD DEVELOPMENT , ONSHORE FACILITIES 32kV TEMPORARY POWERFROM MPCRELAY SETTING STUDY1600-0004 Rev. No.: RELAY SETTING STUDYGAS FIELD DEVELOPMENT 132kV TEMPORARY POWER Hir.S.M.K.ORIGIPRPD Doc. Class : 32kV TEMPORARY POWERFROM MPC STUDY(CT2000:5)Sh. No.0 STUDY 132kV TEMPORARY POWER S.M.K.S.M.K. PRPDCHKD Scale : 32kV TEMPORARY POWER (CT2000:5) No. :1 of Page 1132kV TEMPORARY POWER A.F. APPD CONT.APPRD. Scale : NTS of 158Rev. 01 of 158 ONT. PPRD. 0 X Gas Field Development (Phases Gas Field Development (Phases PAGEREV 112030403060708090100110120130140130160170180190200210220230240230260270280290300310320330340330 Doc. No. : Gas Field Development (Phases X) REVPAGE 136 037 038 039 040 041 042 043 044 043 046 047 048 049 030 031 032 033 034 033 036 037 038 039 060 061 062 063 064 063 066 067 068 069 070 RELAY SETTINGSTUDYDoc. No. : NC-) TABULATIONOFREVISEDPAGESREVPAGE071072073074073076077078079080081082083084083086087088089090091092093094093096097098099010001010102010301040103 RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) TABULATIONOFREVISEDPAGESPAGEREV 710 720 730 740 730 760 770 780 790 800 810 820 830 840 830 860 870 880 890 900 910 920 930 940 930 960 970 980 990 1000 1010 1020 1030 1040 1030 RELAY SETTING (CT2000:5) 1600-0004 ) TABULATIONOFREVISEDPAGES PAGE 106 107 108 109 110 111 112 113 114 113 116 117 118 119 120 121 122 123 124 123 126 127 128 129 130 131 132 133 134 133 136 137 138 139 140 Rev. No.: TABULATIONOFREVISEDPAGES REVPAGE014101420143014401430146014701480149013001310132013301340133013601370138013901600 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 PAGEREV 1410 1420 1430 1440 1430 1461 1471 1481 1491 1300 1310 1320 1330 1340 1330 1360 1370 1380 1390 1600 Page 2REVPAGEREV 2 of 158 REV X Gas Field Development (Phases Gas Field Development (Phases 1. INTRODUCTION2. SCOPE 3. SYSTEM DESCRIPTIO3.1.Reference Documents3.2.System Analysis Software3.3. Electrical System Representation 4. CALCULATION CRITERIA5. LOAD FLOW AND FAULT 6. RELAY TYPE AND LOCAT7. RELAYSETTINGS8. RESULTS9. TRANSIENT ACTIONS9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY9.2 TRANSIENTS CHECKS10.0 OTHER PARAMETERS TO BE SET10.1 TRANSFORMER AUTOMATIC VOLTAGE REGULATOR10.2 INRUSH CURRENT SETTINGS11. CONCLUSIONS Doc. No. : Gas Field Development (Phases X) 1. INTRODUCTION 3. SYSTEM DESCRIPTIO3.1.Reference DocumentsSystem Analysis Software3.3. Electrical System Representation CALCULATION CRITERIALOAD FLOW AND FAULT RELAY TYPE AND LOCATRELAYSETTINGS 8. RESULTS 9. TRANSIENT ACTIONS9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY9.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY 9.1.2 Under voltage, Bus TransferTRANSIENTS CHECKS10.0 OTHER PARAMETERS TO BE SET10.1 TRANSFORMER AUTOMATIC VOLTAGE REGULATOR10.2 INRUSH CURRENT SETTINGS. CONCLUSIONS RELAY SETTINGSTUDYDoc. No. : NC-) 3. SYSTEM DESCRIPTION AND INPUT DATA3.1.Reference Documents System Analysis Software3.3. Electrical System Representation CALCULATION CRITERIA LOAD FLOW AND FAULT RESULTSRELAY TYPE AND LOCATIONS 9. TRANSIENT ACTIONS 9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY9.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY 9.1.2 Under voltage, Bus TransferTRANSIENTS CHECKS 10.0 OTHER PARAMETERS TO BE SET10.1 TRANSFORMER AUTOMATIC VOLTAGE REGULATOR10.2 INRUSH CURRENT SETTINGS RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) TABLE OF CONTENTSN AND INPUT DATA System Analysis Software 3.3. Electrical System Representation 3.3.1.Network Topology3.3.2. Network Parameters and DataRESULTS 9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY9.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY 9.1.2 Under voltage, Bus Transfer10.0 OTHER PARAMETERS TO BE SET 10.1 TRANSFORMER AUTOMATIC VOLTAGE REGULATOR10.2 INRUSH CURRENT SETTINGS RELAY SETTING (CT2000:5) 1600-0004 ) TABLE OF CONTENTS 3.3.1.Network Topology3.3.2. Network Parameters and Data9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY9.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY 9.1.2 Under voltage, Bus Transfer 10.1 TRANSFORMER AUTOMATIC VOLTAGE REGULATOR Rev. No.: TABLE OF CONTENTS 3.3.1.Network Topology 3.3.2. Network Parameters and Data9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY9.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY 10.1 TRANSFORMER AUTOMATIC VOLTAGE REGULATOR 0 3.3.2. Network Parameters and Data 9.1 TRANSIENT ACTION OF THE RELAYS WITH TRANSIENT STABILITY 9.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY Page 39.1.1 33KV UNDER VOLTAGE RELAY ACTION IN TRANSIENT STABILITY SIMULATION3 of 158 SIMULATION X Gas Field Development (Phases A.I.1 GAS A.I.2 INPUT DATAA.I.3LOAD FLOWA.I.4SHORT CIRCUIT ANALYSISA.I.5 DYNAMIC STUDIESA.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORKA.I.7 INTENDED STUDY SYSTEM Gas Field Development (Phases APPENDIX I STATIC AND DYNAMIC EQUIVALENT OF GAS PLANTA.I.1 GAS PLANT ELECTRICAL NETWORK REPRESENTATIONA.I.2 INPUT DATA A.I.3LOAD FLOW A.I.4SHORT CIRCUIT ANALYSISA.I.5 DYNAMIC STUDIESA.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORKA.I.7 INTENDED STUDY SYSTEM Doc. No. : Gas Field Development (Phases X) APPENDIX I STATIC AND DYNAMIC EQUIVALENT OF GAS PLANTPLANT ELECTRICAL NETWORK REPRESENTATIONA.I.4SHORT CIRCUIT ANALYSISA.I.5 DYNAMIC STUDIES A.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORKA.I.7 INTENDED STUDY SYSTEMRELAY SETTINGSTUDYDoc. No. : NC-) STATIC AND DYNAMIC EQUIVALENT OF GAS PLANTPLANT ELECTRICAL NETWORK REPRESENTATIONA.I.4SHORT CIRCUIT ANALYSIS A.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORKA.I.7 INTENDED STUDY SYSTEM RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) STATIC AND DYNAMIC EQUIVALENT OF GAS PLANTPLANT ELECTRICAL NETWORK REPRESENTATIONA.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORKRELAY SETTING (CT2000:5) 1600-0004 ) STATIC AND DYNAMIC EQUIVALENT OF GAS PLANTPLANT ELECTRICAL NETWORK REPRESENTATION A.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORK Rev. No.: STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT A.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORK0 A.I.6 STATIC AND DYNAMIC EQUIVALENT OF GAS PLANT ELECTRICAL NETWORK Page 44 of 158 X Gas Field Development (Phases -AttachmentsNC-6340SNC-6340S Gas Field Development (Phases Attachments6340S-550-1600-00046340S-550-1600-0004 Doc. No. : Gas Field Development (Phases X) Attachments 0004-RELAY SETTING STUDY0004-RELAY SETTING STUDY RELAY SETTINGSTUDYDoc. No. : NC-) RELAY SETTING STUDYRELAY SETTING STUDY RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) RELAY SETTING STUDY-AT01(CT2000:5)RELAY SETTING STUDY-AT02(CT2000:5)RELAY SETTING (CT2000:5) 1600-0004 ) (CT2000:5) (CT2000:5) Rev. No.: 0 Page 55 of 158 X Gas Field Development (Phases 1.INTRODUCTION Thephasehydrocarbon fluid by the subof TheTemporaryElectricalPowerrequiredforphases Mobitransformer.Six generators that are connected to the that contains 132kV cable and 13The 2.SCOPE Theobjective of thisdocumentis to do relay settingsandcoordinationanalysis for temporarysupply the in document Theresultsofthisstudyprovidetheexactsettingsofthe must be 3.SYSTEM DESCRIPTION AND INPUT DATA 3.1. DW 6340S 120 1633 0001NC 6340S 120 1634 0001NC 6340S 999 1630 0020NCVP 6340S 1600 LG 0001 077NC 6340S 550 1600 001NC 6340S 550 1600 002NC 6340S 550 1600 003NC 6340S 550 1600 005SLD 6340S 550 1600 0002 Gas Field Development (Phases INTRODUCTIONThephasesXhydrocarbon fluid by the subof X city. TheTemporaryElectricalPowerrequiredforphases MobinPetrochemicalComplexthrough132transformer. Six generators that are connected to the that contains 132kV cable and 13The temporary supply relay settingSCOPE The objective ofthis documentis todorelay settingsand coordinationanalysis for temporary supply the 33KV outgoing to the in document VP 6340S 1600 LG 0001 077Theresultsofthisstudyprovidetheexactsettingsofthe must be tuned before commissioning of the plant.SYSTEM DESCRIPTION AND INPUT DATAReference DocumentsDW 6340S 120 1633 0001NC 6340S 120 1634 0001NC 6340S 999 1630 0020NC 6340S 999 1630 0021VP 6340S 1600 LG 0001 077NC 6340S 550 1600 001NC 6340S 550 1600 002NC 6340S 550 1600 003NC 6340S 550 1600 005SLD 6340S 550 1600 0002 Doc. No. : Gas Field Development (Phases X) INTRODUCTION Xwithinthe hydrocarbon fluid by the subTheTemporaryElectricalPowerrequiredforphases nPetrochemicalComplexthrough132Six generators that are connected to the that contains 132kV cable and 13temporary supply relay settingThe objectiveof this document is todo relay settingsandcoordination analysis fortemporarysupply 33KV outgoing to the Gas plant relays that are coordinated VP 6340S 1600 LG 0001 077Theresultsofthisstudyprovidetheexactsettingsofthe tuned before commissioning of the plant.SYSTEM DESCRIPTION AND INPUT DATAReference Documents DW 6340S 120 1633 0001 NC 6340S 120 1634 0001 NC 6340S 999 1630 0020 6340S 999 1630 0021 VP 6340S 1600 LG 0001 077NC 6340S 550 1600 001 NC 6340S 550 1600 002 NC 6340S 550 1600 003 NC 6340S 550 1600 005 SLD 6340S 550 1600 0002 RELAY SETTINGSTUDYDoc. No. : NC-) withintheXGasFieldDevelopmentproject hydrocarbon fluid by the sub-marine pipelines. The refinery is located at TheTemporaryElectricalPowerrequiredforphases nPetrochemicalComplexthrough132Six generators that are connected to the that contains 132kV cable and 132/33kV transformer.temporary supply relay setting and coordination studies are described in this document.The objective ofthis document isto dorelay settings andcoordination analysis fortemporarysupply Gas plant relays that are coordinated VP 6340S 1600 LG 0001 077Theresultsofthisstudyprovidetheexactsettingsofthe tuned before commissioning of the plant.SYSTEM DESCRIPTION AND INPUT DATAGeneral Single Line DiagramElectrical Load SummaryShort Circuit and Load Flow StudyDynamic Stability StudyVP 6340S 1600 LG 0001 077(Issued with no name)Switching Overvoltage StudyLoad Flow StudyShort Circuit StudyMotor Starting StudySingle Line Diagram RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) GasFieldDevelopmentproject marine pipelines. The refinery is located at TheTemporaryElectricalPowerrequiredforphases nPetrochemicalComplexthrough132kvundergroundcablelineanda132kV/33Six generators that are connected to the X National grid are assumed to supply electric power through circuit 2/33kV transformer.and coordination studies are described in this document.Theobjective of this documentisto do relaysettingsandcoordination analysis for temporary supply Gas plant relays that are coordinated VP 6340S 1600 LG 0001 077. Theresultsofthisstudyprovidetheexactsettingsofthe tuned before commissioning of the plant. SYSTEM DESCRIPTION AND INPUT DATAGeneral Single Line DiagramElectrical Load SummaryShort Circuit and Load Flow StudyDynamic Stability Study(Issued with no name)Switching Overvoltage StudyLoad Flow Study made by TOMShort Circuit Study made by TMotor Starting Study Single Line Diagram RELAY SETTING (CT2000:5) 1600-0004 ) GasFieldDevelopmentproject marine pipelines. The refinery is located at TheTemporaryElectricalPowerrequiredforphasesXGasPlantshallbesuppliedfromPowerPlanvundergroundcablelineanda132kV/33National grid are assumed to supply electric power through circuit 2/33kV transformer. and coordination studies are described in this document.The objectiveof this document is todo relay settingsandcoordination analysis fortemporarysupply Gas plant relays that are coordinated by another vendor and made available to us Theresultsofthisstudyprovidetheexactsettingsoftheconcerned SYSTEM DESCRIPTION AND INPUT DATA General Single Line Diagram Electrical Load Summary Short Circuit and Load Flow StudyDynamic Stability Study (Issued with no name) Switching Overvoltage Study made by TOMmade by TOM made by TOM made by TOM Rev. No.: GasFieldDevelopmentprojectaredesignedtoprocesstheincoming marine pipelines. The refinery is located at X Village, about 270 km SouthGasPlantshallbesuppliedfromPowerPlanvundergroundcablelineanda132kV/33National grid are assumed to supply electric power through circuit and coordination studies are described in this document.The objective ofthisdocumentis to dorelaysettings and coordinationanalysis for temporary supply by another vendor and made available to us concernedrelaysofthetemporarysupply Short Circuit and Load Flow Study made by TOM OM made by TOM 0 designedtoprocesstheincoming X Village, about 270 km SouthGasPlantshallbesuppliedfromPowerPlanvundergroundcablelineanda132kV/33kV,100MVApower National grid are assumed to supply electric power through circuit and coordination studies are described in this document. Theobjective of this documentisto do relaysettingsandcoordination analysis for temporary supply by another vendor and made available to us ofthetemporarysupply Page 6designedtoprocesstheincoming X Village, about 270 km South East GasPlantshallbesuppliedfromPowerPlan,100MVApower National grid are assumed to supply electric power through circuit The objectiveof this document is todo relay settingsandcoordination analysis fortemporarysupplyupto by another vendor and made available to us ofthetemporarysupplywhich 6 of 158 designedtoprocesstheincoming East GasPlantshallbesuppliedfromPowerPlantof ,100MVApower National grid are assumed to supply electric power through circuit up to by another vendor and made available to us which X Gas Field Development (Phases 3.2. PASHA(PowerApparatusandSystemHomologicalAnalysis),Version studies. The software is product of TOM and serving the electrical utilities and the industries years worldwide. 3.3. Singlelinediagram view of the overall electrical network represented in the present studies.Gas plant is analyzed and equalized in Appendix I. linediagramasrepresentedin Documents Here,loadsare inductionmotorloadsaresummedandrepresentedasequivalentmbars. detailed representation of GAS PLANT electrical systems.Figure2showstheelectricalnetworkrepresentationwhePLANTisrepresentedinsidethenetwork,pleaseseealsodrawing 6340S5501600000representedareselectedsuchthatthe comesfromtheoverall documentation and reportings easiear.In and theTherefore, they are included in the representation of the electrical networks as reporttheneighboringfactoriesarelumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars osideoftheexternalplantscannotare imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore all the motor fault contribushown in Gas Field Development (Phases System Analysis Software PASHA(PowerApparatusandSystemHomologicalAnalysis),Version studies. The software is product of TOM and serving the electrical utilities and the industries years worldwide.Electrical System Representation 3.3.1. Network Topology Singlelinediagram view of the overall electrical network represented in the present studies.Gas plant is analyzed and equalized in Appendix I. linediagramasrepresentedin DocumentsNC6340S99916300020Here, 11 KV motor loads are represented separately based on their dynamic models. loadsarealso inductionmotorloadsaresummedandrepresentedasequivalentmbars.Staticloadsarelumpedrepresentedontheirappropriatelocations. detailed representation of GAS PLANT electrical systems.Figure2showstheelectricalnetworkrepresentationwhePLANTisrepresentedinsidethenetwork,pleaseseealsodrawing 6340S5501600000representedasareselectedsuchthatthe comesfromtheoverall documentation and reportings easiear.n fault and relay coordination studiesand their contributions Therefore, they are included in the representation of the electrical networks as reporttheneighboringfactoriesarelumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars osideoftheexternalplantscannotare imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore all the motor fault contribushown in EXTERNAL Doc. No. : Gas Field Development (Phases X) System Analysis SoftwarePASHA(PowerApparatusandSystemHomologicalAnalysis),Version studies. The software is product of TOM and serving the electrical utilities and the industries years worldwide. Electrical System RepresentationNetwork Topology Singlelinediagramofthe involving view of the overall electrical network represented in the present studies.Gas plant is analyzed and equalized in Appendix I. linediagramasrepresentedin NC6340S99916300020KV motor loads are represented separately based on their dynamic models. alsorepresentedseparatelybasedontheirdynamicmodelsinductionmotorloadsaresummedandrepresentedasequivalentmStaticloadsarelumpedrepresentedontheirappropriatelocations. detailed representation of GAS PLANT electrical systems.Figure2showstheelectricalnetworkrepresentationwhePLANTisrepresentedinsidethenetwork,pleaseseealsodrawing 6340S55016000001attheendofthisreportinsideappendixI.asequivalentinductionmotorareselectedsuchthatthe comesfromtheoverallloadsand documentation and reportings easiear.fault and relay coordination studiesir contributions in device Therefore, they are included in the representation of the electrical networks as reporttheneighboringfactoriesarelumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars osideoftheexternalplantscannotare imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore all the motor fault contributions to short circuit are congregated in the coupled bus.EXTERNAL area in Figure 2.RELAY SETTINGSTUDYDoc. No. : NC-) System Analysis Software PASHA(PowerApparatusandSystemHomologicalAnalysis),Version studies. The software is product of TOM and serving the electrical utilities and the industries Electrical System Representation ofthe involvingplantsareview of the overall electrical network represented in the present studies.Gas plant is analyzed and equalized in Appendix I. linediagramasrepresentedindrawing NC6340S99916300020, KV motor loads are represented separately based on their dynamic models. representedseparatelybasedontheirdynamicmodelsinductionmotorloadsaresummedandrepresentedasequivalentmStaticloadsarelumpedrepresentedontheirappropriatelocations. detailed representation of GAS PLANT electrical systems.Figure2showstheelectricalnetworkrepresentationwhePLANTisrepresentedinsidethenetwork,pleaseseealsodrawing attheendofthisreportinsideappendixI.equivalentinductionmotorareselectedsuchthatthestaticpowerrequirment loadsandinductionmotorsexistingidocumentation and reportings easiear. The fault and relay coordination studies we need to consider the maximum planed and in operation fault levelin device setting studies. The neighboring factories play important rule in this regard. Therefore, they are included in the representation of the electrical networks as reporttheneighboringfactoriesarecalled lumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars osideoftheexternalplantscannotbeclosedtogether.are imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore tions to short circuit are congregated in the coupled bus.area in Figure 2. RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) PASHA(PowerApparatusandSystemHomologicalAnalysis),Version studies. The software is product of TOM and serving the electrical utilities and the industries plantsareusedto view of the overall electrical network represented in the present studies.Gas plant is analyzed and equalized in Appendix I. For the purpose of the equalization, the Gas Plant, single drawingDW6340S12016330001 ,NC6340S9991630002KV motor loads are represented separately based on their dynamic models. representedseparatelybasedontheirdynamicmodelsinductionmotorloadsaresummedandrepresentedasequivalentmStaticloadsarelumpedrepresentedontheirappropriatelocations. detailed representation of GAS PLANT electrical systems.Figure2showstheelectricalnetworkrepresentationwhePLANTisrepresentedinsidethenetwork,pleaseseealsodrawing attheendofthisreportinsideappendixI.equivalentinductionmotorsandloadspowerrequirmentandthedynamicbehaviour inductionmotorsexistingiThe Gas plant we need to consider the maximum planed and in operation fault levelstudies. The neighboring factories play important rule in this regard. Therefore, they are included in the representation of the electrical networks as calledExternalplantslumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars obeclosedtogether.are imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore tions to short circuit are congregated in the coupled bus.RELAY SETTING (CT2000:5) 1600-0004 ) PASHA(PowerApparatusandSystemHomologicalAnalysis),Version studies. The software is product of TOM and serving the electrical utilities and the industries usedtoproducethestudypowersystem.Figure1view of the overall electrical network represented in the present studies.For the purpose of the equalization, the Gas Plant, single DW6340S12016330001 NC6340S9991630002KV motor loads are represented separately based on their dynamic models. representedseparatelybasedontheirdynamicmodelsinductionmotorloadsaresummedandrepresentedasequivalentmStaticloadsarelumpedrepresentedontheirappropriatelocations. detailed representation of GAS PLANT electrical systems. Figure2showstheelectricalnetworkrepresentationwherethestaticanddynamicequivalentoftheGAS PLANTisrepresentedinsidethenetwork,pleaseseealsodrawing attheendofthisreportinsideappendixI.andloads.Theparametersoftheequivalentinductionmotors andthedynamicbehaviour inductionmotorsexistingiGas plant equivalent is shown in we need to consider the maximum planed and in operation fault levelstudies. The neighboring factories play important rule in this regard. Therefore, they are included in the representation of the electrical networks as xternalplants.Theexternalplantsarerepresentedbytheir lumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars obeclosedtogether.Maximumfaultcurrentcontributionare imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore tions to short circuit are congregated in the coupled bus. Rev. No.: PASHA(PowerApparatusandSystemHomologicalAnalysis),Version2008,wasusedforperformingthe studies. The software is product of TOM and serving the electrical utilities and the industries producethestudypowersystem.Figure1view of the overall electrical network represented in the present studies. For the purpose of the equalization, the Gas Plant, single DW6340S12016330001isrepresentedNC6340S99916300021areusedtoprovidetherequireddata.KV motor loads are represented separately based on their dynamic models. representedseparatelybasedontheirdynamicmodels.Other6KVmotorsand inductionmotorloadsaresummedandrepresentedasequivalentmotorloadsonStaticloadsarelumpedrepresentedontheirappropriatelocations.PleaserefertoappendixIfor rethestaticanddynamicequivalentoftheGAS PLANTisrepresentedinsidethenetwork,pleaseseealsodrawingDW6340S55016000002attheendofthisreportinsideappendixI.Thedynamicloads .Theparametersoftheequivalentinductionmotors andthedynamicbehaviour inductionmotorsexistingintheGasPlant.valent is shown in GASEQUALwe need to consider the maximum planed and in operation fault levelstudies. The neighboring factories play important rule in this regard. Therefore, they are included in the representation of the electrical networks as .Theexternalplantsarerepresentedbytheir lumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars oaximumfaultcurrentcontributionare imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore tions to short circuit are congregated in the coupled bus.0 ,wasusedforperformingthe studies. The software is product of TOM and serving the electrical utilities and the industries producethestudypowersystem.Figure1For the purpose of the equalization, the Gas Plant, single isrepresentedinPASHAsoftware. areusedtoprovidetherequireddata.KV motor loads are represented separately based on their dynamic models. Some of 6Other6KVmotorsand otorloadsontheircorrespondingbus PleaserefertoappendixIfor rethestaticanddynamicequivalentoftheGAS DW6340S55016000002Thedynamicloadsofthisplant .Theparametersoftheequivalentinductionmotors andthedynamicbehaviouroftheloadmatchesthose ntheGasPlant.Equalization,makes GASEQUAL area in Figure 2.we need to consider the maximum planed and in operation fault levelstudies. The neighboring factories play important rule in this regard. Therefore, they are included in the representation of the electrical networks as it is shown in Figure 2. In this .Theexternalplantsarerepresentedbytheir lumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars oaximumfaultcurrentcontributionsare imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore tions to short circuit are congregated in the coupled bus. The external plants are Page 7,wasusedforperformingthe studies. The software is product of TOM and serving the electrical utilities and the industries for twenty three producethestudypowersystem.Figure1showsa For the purpose of the equalization, the Gas Plant, single inPASHAsoftware. areusedtoprovidetherequireddata.Some of 6 KV motor Other6KVmotorsand400V theircorrespondingbus PleaserefertoappendixIfor rethestaticanddynamicequivalentoftheGAS DW6340S55016000002,andDW ofthisplant .Theparametersoftheequivalentinductionmotors oftheloadmatchesthose Equalization,makes area in Figure 2.we need to consider the maximum planed and in operation fault levelstudies. The neighboring factories play important rule in this regard. shown in Figure 2. In this .Theexternalplantsarerepresentedbytheir lumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming transformer of these plants is also considered in the studies. This is because the bus bars on 20KV or 33KV softheseplants are imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore The external plants are 7 of 158 ,wasusedforperformingthe for twenty three howsa For the purpose of the equalization, the Gas Plant, single inPASHAsoftware. areusedtoprovidetherequireddata. KV motor 400V theircorrespondingbus PleaserefertoappendixIfor rethestaticanddynamicequivalentoftheGAS DW ofthisplantare .Theparametersoftheequivalentinductionmotors oftheloadmatchesthose Equalization,makes area in Figure 2. we need to consider the maximum planed and in operation fault levels studies. The neighboring factories play important rule in this regard. shown in Figure 2. In this .Theexternalplantsarerepresentedbytheir lumpedloadsequivalence.Fortheselumpedloads80%motorloadsisconsidered.Oneincoming or 33KV oftheseplants are imposed in their respective board when a bus coupler is closed while one incomer is opened. Therefore The external plants are X Gas Field Development (Phases The existence of the connection of This is shown in Figure 2 representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthrepresented in this report.The box feeds motor11KVAs mentioned the equalization is just made to simplify the reporting, the actual considered inside the Gas plant Gas Field Development (Phases The existence of the connection of This is shown in Figure 2 representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthrepresented in this report.The box RELAYfeedsthevarioussubstations motorsoftheGasplant11KV area. As mentioned the equalization is just made to simplify the reporting, the actual considered inside the Gas plant Doc. No. : Gas Field Development (Phases X) The existence of the connection of This is shown in Figure 2 in representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthrepresented in this report. RELAY is introduced inside thethevarioussubstations softheGasplantisalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inAs mentioned the equalization is just made to simplify the reporting, the actual considered inside the Gas plant RELAY SETTINGSTUDYDoc. No. : NC-) The existence of the connection of MOBin GRID area. The representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthis introduced inside thethevarioussubstationsinsidetheGasplant.Thebahaviourof33KVrelaysprotectingthe isalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inAs mentioned the equalization is just made to simplify the reporting, the actual considered inside the Gas plant but it does not included in the reports. RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) MOBIN power generation plant to. The detailed representation of the XrepresentedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthis introduced inside the Gas plant equivalent to consider for the outgoing 33KV relays insidetheGasplant.Thebahaviourof33KVrelaysprotectingthe isalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inAs mentioned the equalization is just made to simplify the reporting, the actual but it does not included in the reports.RELAY SETTING (CT2000:5) 1600-0004 ) power generation plant todetailed representation of the XrepresentedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthGas plant equivalent to consider for the outgoing 33KV relays insidetheGasplant.Thebahaviourof33KVrelaysprotectingthe isalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inAs mentioned the equalization is just made to simplify the reporting, the actual but it does not included in the reports. Rev. No.: power generation plant to X National GRIDdetailed representation of the X national power grid is already representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthGas plant equivalent to consider for the outgoing 33KV relays insidetheGasplant.Thebahaviourof33KVrelaysprotectingthe isalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inAs mentioned the equalization is just made to simplify the reporting, the actual but it does not included in the reports. 0 National GRID is also considered. national power grid is already representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe networkwhichincludesthe63KVoftheEsfahanisusedtoprovidetheequivalentofthepowergridas Gas plant equivalent to consider for the outgoing 33KV relays insidetheGasplant.Thebahaviourof33KVrelaysprotectingthe isalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inAs mentioned the equalization is just made to simplify the reporting, the actual 33KV relays behavior is also Page 8is also considered. national power grid is already representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVofthe epowergridas Gas plant equivalent to consider for the outgoing 33KV relays that insidetheGasplant.Thebahaviourof33KVrelaysprotectingthe11KVisalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2inrelays behavior is also 8 of 158 is also considered. national power grid is already representedinPASHAsoftwareelsewhere.The1990deckofthe400KV,230KV,and132KVoftheX epowergridas that 11KV isalsoconsidered.TheselectedequivalentmotorsareintdicatedinFigure2in relays behavior is also X Gas Field Development (Phases Figure 1: The overall view of the study system Gas Field Development (Phases Figure 1: The overall view of the study system Doc. No. : Gas Field Development (Phases X) Figure 1: The overall view of the study system RELAY SETTINGSTUDYDoc. No. : NC-) Figure 1: The overall view of the study system RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) Figure 1: The overall view of the study system RELAY SETTING (CT2000:5) 1600-0004 ) Rev. No.: 0 Page 99 of 158 X Gas Field Development (Phases Figure 2: The study system Gas Field Development (Phases Figure 2: The study system Doc. No. : Gas Field Development (Phases X) Figure 2: The study system RELAY SETTINGSTUDYDoc. No. : NC-) of this report RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) of this report; Gas plant equivalent (Appedix I) is introducedRELAY SETTING (CT2000:5) 1600-0004 ) ; Gas plant equivalent (Appedix I) is introduced Rev. No.: ; Gas plant equivalent (Appedix I) is introduced0 ; Gas plant equivalent (Appedix I) is introduced Page 10 10 of 158 X Gas Field Development (Phases The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages which includes the drawn equipmentdata on system Table 1 dynamic loads are represented with type8000000appenix I.Table2showsthesystemparametersafterbaseconversion. consideredequalto14.3kmperphase.Appendix I. Gas Field Development (Phases 3.3.2. Network Parameters and DataThe data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages which includes the drawn equipmentdata on system Table 1 containdynamic loads are represented with type8000000to89appenix I. Table2showsthesystemparametersafterbaseconversion. consideredequalto14.3kmperphase.Appendix I. Doc. No. : Gas Field Development (Phases X) Network Parameters and DataThe data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages which includes the drawn equipmentdata on system contains the base DATAdynamic loads are represented with type8999999.ForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Table2showsthesystemparametersafterbaseconversion. consideredequalto14.3kmperphase.RELAY SETTINGSTUDYDoc. No. : NC-) Network Parameters and Data The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages which includes the drawn equipmentdata on system base DATA for equipment parametersdynamic loads are represented with typeForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Table2showsthesystemparametersafterbaseconversion. consideredequalto14.3kmperphase. RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages which includes the drawn equipmentdata on system for equipment parametersdynamic loads are represented with types 9000 to 9030 and those lumped loads are represented with typeForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Table2showsthesystemparametersafterbaseconversion. consideredequalto14.3kmperphase.ForGASPLANTdetaRELAY SETTING (CT2000:5) 1600-0004 ) The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages which includes the drawn equipmentdata on system base.This is selected for equipment parameters of the equivalent study systemto 9030 and those lumped loads are represented with typeForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Table2showsthesystemparametersafterbaseconversion.Thelengthof132KVtemporarycableis ForGASPLANTdetailedinputdatapleaserefertoTableI.2of Rev. No.: The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages base.This is selected to be of the equivalent study systemto 9030 and those lumped loads are represented with typeForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Thelengthof132KVtemporarycableis iledinputdatapleaserefertoTableI.2of 0 The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages to be 10MVA.of the equivalent study systemto 9030 and those lumped loads are represented with typeForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Thelengthof132KVtemporarycableis iledinputdatapleaserefertoTableI.2of Page 11The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages of the equivalent study system. The equivalent to 9030 and those lumped loads are represented with typeForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Thelengthof132KVtemporarycableis iledinputdatapleaserefertoTableI.2of 11 of 158 The data are provided in two groups. One is from PASHA data bases which contains the fundamental data of equipment, usually based on the equipment ratings.The second one is according to PASHA edit pages . The equivalent to 9030 and those lumped loads are represented with types ForthedetaileddatabaseoftheGasplantequipmentpleaserefertoTableI.1of Thelengthof132KVtemporarycableis iledinputdatapleaserefertoTableI.2of X Gas Field Development (Phases Gas Field Development (Phases CABLESIZE 1(500) 1(400) 1(800) Used for Tie connections and those not known Note : RATING MVA IS Doc. No. : Gas Field Development (Phases X) CABLE Type MANUFACT. A8PA8 FICT FICT FICT Note : RATING MVA IS OBTAINED FROM CABLE CURRENT CAPACITY, RATINGS ARE RELAY SETTINGSTUDYDoc. No. : NC-) Table 1PASHA LIB. 32130000 32140000 32180000 33 6 15 OBTAINED FROM CABLE CURRENT CAPACITY, RATINGS ARE RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) Table 1 Data base for system equipmentCABLES AND LINESRATING MVA RATING KV 10013263132200132 10033 56 16015 OBTAINED FROM CABLE CURRENT CAPACITY, RATINGS ARE RELAY SETTING (CT2000:5) 1600-0004 ) Data base for system equipmentCABLES AND LINES DATA BASERATING KV RESISTANCE PU/KM 1320.00028 1320.00027 1320.00033 OBTAINED FROM CABLE CURRENT CAPACITY, RATINGS ARE Rev. No.: Data base for system equipment DATA BASE REACTANCE PU/KM 0.000860.0009830.00081 0.00102 0.0001 0.0001 0.0001 OBTAINED FROM CABLE CURRENT CAPACITY, RATINGS ARE THE PU BASES0 SUSEPTANCE PU/KM ZERO 0.0009830.000840.00100 0.000940.00099 PU BASES Page 12ZERO SEQUENCE RESISTANCE-PU/KM ZERO 0.00084 0.0008 0.00099 12 of 158 ZERO SEQUENCE REACTANCE-PU/KM 0.0026 0.0024 0.0031 0.0003 0.0003 0.0003 X Gas Field Development (Phases RATING (BASE) MVA 160 100 120 100 80 63 36 20 1.236.6 100 100 20 *400A grounding resistor considered,**X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7, Gas Field Development (Phases RATING (BASE) MVA U1/U2 KV/KV 138/13 132/33 132/20 132/20 132/20 132/20 132/20 132/20 1.2313/.4 13/6 230/Mlu Mlu/132 Mlu/20 A grounding resistor considered,**X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7, Doc. No. : Gas Field Development (Phases X) CONNECTION TYPE ** xu11 ux1 ux1 ux1 ux1 ux1 ux1 ux1 ux1 ux1 xx02131231xx02131232xu12131233 A grounding resistor considered,**X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7,RELAY SETTINGSTUDYDoc. No. : NC-) PASHA LIB. 10.0034330.00183210.00183220.00183230.00183240.00183230.00183260.00183310.00941320.00941naLlonal Crld 1hree Wlndlnas 1ransformer21312310.00762131232 2131233 A grounding resistor considered, **X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7, RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) TRANSFORMERSRESISTANCE PU REACTANCE PU MC8ln 1ransformer0.003430.14196Plrbodan 1ransformer Lo 90.001830.0963LxLernal SvsLem 1ransfor0.001830.099980.001830.099980.001830.099980.001830.099980.001830.099980.001830.09998MC8ln Auxlllarv0.009410.039260.009410.03926naLlonal Crld 1hree Wlndlnas 1ransformer0.00760.13160.0080.24 **X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7,RELAY SETTING (CT2000:5) 1600-0004 ) TRANSFORMERS DATA BASE REACTANCE PUZERO SEQUENCERESISTANCE PU* MC8ln 1ransformer0.141960.00343Plrbodan 1ransformer Lo 90.096313.12383LxLernal SvsLem 1ransfor0.099986.362830.099986.362830.099986.362830.099986.362830.099986.362830.099986.36283Auxlllarv 1ransformer0.039260.009410.039260.00941naLlonal Crld 1hree Wlndlnas 1ransformer0.13160.006670.008 **X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7, Rev. No.: DATA BASE ZERO SEQUENCE RESISTANCE PU* REACTANCE PU MC8ln 1ransformer 0.003430.11339 Plrbodan 1ransformer Lo 9-10 13.123830.09736 LxLernal SvsLem 1ransformers 6.362830.09998 6.362830.09998 6.362830.09998 6.362830.09998 6.362830.09998 6.362830.09998 1ransformer 0.009410.03926 0.009410.03926 naLlonal Crld 1hree Wlndlnas 1ransformer0.006670.1334 0.008 0.24 **X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7,0 MIN. TAP -101.23-131.67-23.031.67-23.031.67-23.031.67-23.031.67-23.031.67-23.031.67-32.3-32.3naLlonal Crld 1hree Wlndlnas 1ransformer -101.23 **X means Yn and from simulation point of view DY11 is equal to DY5, and DY1 is equal to DY7, Page 13TAP STEP MAX. TAP 1.2310 1.6713 1.6723.03 1.6723.03 1.6723.03 1.6723.03 1.6723.03 1.6723.03 2.33 2.33 1.2310 13 of 158 RATIO DV Type or MANUFACT. -0.03160100120100806336201.236.6100100100 Type or MANUFACT. 160 100 120 100 80 63 36 20 1.23 6.6 100 100 100 X Gas Field Development (Phases LqulvalenLLqulvalenLLqulvalenLLqulvalenLLqulvalenLLqulvalenLLqulvalenLLqulvalLqulvalenLLqulvalLqulvalenLLqulvalLqulvalenLLqulvalLqulvalenLLqulvalenL Gas Field Development (Phases RATED KW LqulvalenL LqulvalenL ulvalenL LqulvalenL ulvalenL LqulvalenL ulvalenL LqulvalenL LqulvalenL LqulvalenL LqulvalenL LqulvalenL LqulvalenL LqulvalenL ulvalenL LqulvalenL *Driven Typ Doc. No. : Gas Field Development (Phases X) PASHA VOLTAGE LIB.KV901133901233901333901433902933902833902733902633902333902433902333902233902133147331113310333 *Driven Type: Mechanical RELAY SETTINGSTUDYDoc. No. : NC-) VOLTAGE BASE KVMVA REACT.33192.3733322.33.333192.3733322.33.333163.73333.23.73332.73.73333.33.73334.93.73338.13.73336.83.73332.33.73336.63.733312.33.733393.73334.63.73 Mechanical Torque Formula=(A+B(1 RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) MOTORSMAGNETIZING REAC T.-PU RESIST.-PU 2.3730.0373.30.00022.3730.0373.30.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.00023.730.0002 Torque Formula=(A+B(1RELAY SETTING (CT2000:5) 1600-0004 ) MOTORS DATA BASE STATOR RESIST.-PU REACT-PU 0.0370.0769 0.00020.108 0.0370.0769 0.00020.108 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 0.00020.167 Torque Formula=(A+B(1-s)+C(1-s)2)Tmo where A+B+C=1, B and C is written and s is slip. Rev. No.: DATA BASE RESIST.-PU 0.0084 0.01 0.0084 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 )Tmo where A+B+C=1, B and C is written and s is slip.0 ROTOR REACT.-PU 0.076933LCu0.10833LCu0.076933LCu0.10833LCu0.16709LCu0.16708LCu0.16707LCu0.16706LCu0.16703LCu0.16704LCu0.16703LCu0.16702LCu0.16701LCu0.16714733LC0.16711133LC0.16710333LC )Tmo where A+B+C=1, B and C is written and s is slip.Page 14Type or Man ufac turer H (Sec.) (total) 33LCu1933LCu18.09333LCu1733LCu18.09309LCu12.708LCu307LCu2.206LCu4.603LCu4.204LCu6.903LCu3.602LCu201LCu3.814733LC4.111133LC4.910333LC2.6 )Tmo where A+B+C=1, B and C is written and s is slip.14 of 158 OTHERS (total) (driven) Driven TYPE* 190,1 18.0930,0 170,1 18.0930,0 12.70,0 30,0 2.20,0 4.60,0 4.20,0 6.90,0 3.60,0 20,0 3.80,0 4.10,0.8 4.90,0.67 2.60,0.9 )Tmo where A+B+C=1, B and C is written and s is slip. X Gas Field Development (Phases Gas Field Development (Phases RATED MVA 1208012000100801808008000638006300368003600208002000380003000.380123001008010003 *Driven Typ Doc. No. : Gas Field Development (Phases X) PASHA VOLTAGE LIB.KV 801200020 801000020 800800020 800630020 800360020 800200020 80003006 80123000.4 801000333 Type: Mechanical Torque Formula=(A+B(1 RELAY SETTINGSTUDYDoc. No. : NC-) BASE MVA REACT.-1202.61002.6802.6632.6362.6202.632.1630.31.9331002.6 nical Torque Formula=(A+B(1 RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) LUMPED LOADMAGNETIZING REAC -PU RESIST.-PU 2.60.0002 2.60.0002 2.60.0002 2.60.0002 2.60.0002 2.60.0002 2.1630.0334 1.9330.0424 2.60.0002 nical Torque Formula=(A+B(1RELAY SETTING (CT2000:5) 1600-0004 ) LUMPED LOADS DATA BASE STATOR REACT-PU 0.073 0.073 0.073 0.073 0.073 0.073 0.1128 0.0821 0.073 nical Torque Formula=(A+B(1-s)+C(1-s)2)Tmo where A+B+C=1, B and C is written and s is slip. Rev. No.: DATA BASE RESIST.-PU 0.010.0730.010.0730.010.0730.010.0730.010.0730.010.0730.01430.07320.00930.03470.010.073 )Tmo where A+B+C=1, B and C is written and s is slip.0 ROTOR REACT.-PU % STATIC 0.073 0.073 0.073 0.073 0.073 0.073 0.0732 0.0347 0.073 )Tmo where A+B+C=1, B and C is written and s is slip.Page 15% STATIC Load H (Sec.) (total) 201020102010201020102010200.2093200.0462010 )Tmo where A+B+C=1, B and C is written and s is slip.15 of 158 OTHERS (total) (driven) Driven TYPE* 100.8,0 100.8,0 100.8,0 100.8,0 100.8,0 100.8,0 0.20930,1 0.0460,1 100.8,0 )Tmo where A+B+C=1, B and C is written and s is slip. X Gas Field Development (Phases PASHA LIB. 138 139 40000 RATED POWERMVA 121.73 121.73 4000 Gas Field Development (Phases *10A grounding resistor considered X'd 0.192 0.197 0.988 RATED POWERTYPE

saLuraLedunsaLuraLeC8lu Doc. No. : Gas Field Development (Phases X) A grounding resistor considered DIRECT AXIS'd 7.33 7.33 RATEDVOLTAGE KV saLuraLed13 unsaLuraLe13 230 RELAY SETTINGSTUDYDoc. No. : NC-) A grounding resistor considered DIRECT AXIS X"d 0.124 0.144 RATEDPASHA VOLTAGE LIB. 138 139 40000 RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) GENERATOR DATA BASE "d 0.03 0.03 RESISTANCEPU 0.001 0.001 0.2213 RELAY SETTING (CT2000:5) 1600-0004 ) GENERATOR DATA BASE

Xq RESISTANCEREACTANCEPU1.3871.3870.988 Rev. No.: GENERATOR DATA BASE X'q REACTANCE PU RESISTANCE1.387634.11361.387634.11360.988 0 QUADRATURE AXESX'q'q ZERO SEQUENCERESISTANCE-PU 634.1136* 634.1136* 0.348 Page 16 QUADRATURE AXES'qX"q ZERO SEQUENCE REACTANCEPU 0.073 0.073 1.89 16 of 158 QUADRATURE AXES X"q"q H REACTANCE-(SEC) 2.6 2.6 lnf X Gas Field Development (Phases =========================== SYSTEM TITLE: TEMPORARY SUPPLY TO PHASES 9 STUDY TITLE:

SYSTEM MVA BASE =10.000

PASHA ACTUAL DYNAMIC FAULT IS ACTIVE

B U S B A R D A T A I N P U T ------------------------

S Y N C H R O N O U S G E N E R A T O R S

BUSBARP Q RESSYN NAME (MW) (MVAR)R XD XD' XD" (MSEC)(MSEC)

GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBIN GT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN GT3 100.00 7 GT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN GT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN GT6 100.00 77.640.00010.WARNING GRIDG60.00 40.000.000

END OF SYNCHRONOUS MACHINE DATA

S T A T I C L O A D S

BUSBAR NAME P(MW) Q(MVAR)MAG(PU) ANG(DEG)VNOM.(KV)

MBIN132 0.000.00 1.0000 0.000132.000 MOBIN GT6 0.000.00 1.0000 0.000 15.000 MOBIN GT5 0.000.00 1.0000 0.000 15.000 MOBIN GT4 0.000.00 1.0000 0.000 15.000 MOBIN GT3 0.000.00 1.0000 0.000 15.000 MOBIN GT2 0.000.00 1.0000 0.000 15.000 MOBIN GT1 GC1 0.000.00 1.0000 0.000 15.000 MOBIN GC2 0.000.00 1.0000 0.000 15.000 MOBIN GC3 0.000.00 1.0000 0.000 15.000 MOBIN GC4 0.000.00 1.0000 0.000 15.000 MOBIN Gas Field Development (Phases ===========================SYSTEM TITLE: TEMPORARY SUPPLY TO PHASES 9STUDY TITLE: SYSTEM MVA BASE =10.000PASHA ACTUAL DYNAMIC FAULT IS ACTIVEB U S B A R D A T A I N P U T------------------------S Y N C H R O N O U S G E N E R A T O R S GENERATION GENERATOR IMPEDANCES PU 0BUSBARP Q RESSYNNAME (MW) (MVAR)R XD XD' XD" (MSEC)(MSEC)GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBINGT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT3 100.00 77.640.00010.13030.01580.0102 7550.00 30.00 MOBINGT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT6 100.00 77.640.00010.WARNING - TDO' OF FOLLOWING MACHINE MISSINGGRIDG60.00 40.000.000END OF SYNCHRONOUS MACHINE DATAS T A T I C L O A D SBUSBARLOAD INITIAL VOLTAGES AREANAME P(MW) Q(MVAR)MAG(PU) ANG(DEG)VNOM.(KV)MBIN132 0.000.00 1.0000 0.000132.000 MOBINGT6 0.000.00 1.0000 0.000 15.000 MOBINGT5 0.000.00 1.0000 0.000 15.000 MOBINGT4 0.000.00 1.0000 0.000 15.000 MOBINGT3 0.000.00 1.0000 0.000 15.000 MOBINGT2 0.000.00 1.0000 0.000 15.000 MOBIN 0.000.00 1.0000 0.000 15.000 MOBINGC1 0.000.00 1.0000 0.000 15.000 MOBINGC2 0.000.00 1.0000 0.000 15.000 MOBINGC3 0.000.00 1.0000 0.000 15.000 MOBINGC4 0.000.00 1.0000 0.000 15.000 MOBIN Doc. No. : Gas Field Development (Phases X) Table 2: List of DATA which ar=========================== SYSTEM TITLE: TEMPORARY SUPPLY TO PHASES 9SYSTEM MVA BASE =10.000 PASHA ACTUAL DYNAMIC FAULT IS ACTIVEB U S B A R D A T A I N P U T-------------------------------------S Y N C H R O N O U S G E N E R A T O R SGENERATION GENERATOR IMPEDANCES PU 0BUSBARP Q RESSYNNAME (MW) (MVAR)R XD XD' XD" (MSEC)(MSEC)GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBINGT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN7.640.00010.13030.01580.0102 7550.00 30.00 MOBINGT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT6 100.00 77.640.00010.TDO' OF FOLLOWING MACHINE MISSINGGRIDG60.00 40.000.00060.00250.00250.00000.000.00 GRIDEND OF SYNCHRONOUS MACHINE DATA S T A T I C L O A D S LOAD INITIAL VOLTAGES AREANAME P(MW) Q(MVAR)MAG(PU) ANG(DEG)VNOM.(KV)MBIN132 0.000.00 1.0000 0.000132.000 MOBINGT6 0.000.00 1.0000 0.000 15.000 MOBINGT5 0.000.00 1.0000 0.000 15.000 MOBINGT4 0.000.00 1.0000 0.000 15.000 MOBINGT3 0.000.00 1.0000 0.000 15.000 MOBINGT2 0.000.00 1.0000 0.000 15.000 MOBIN0.000.00 1.0000 0.000 15.000 MOBINGC1 0.000.00 1.0000 0.000 15.000 MOBINGC2 0.000.00 1.0000 0.000 15.000 MOBINGC3 0.000.00 1.0000 0.000 15.000 MOBINGC4 0.000.00 1.0000 0.000 15.000 MOBINRELAY SETTINGSTUDYDoc. No. : NC-) Table 2: List of DATA which arSYSTEM TITLE: TEMPORARY SUPPLY TO PHASES 9-10 PASHA ACTUAL DYNAMIC FAULT IS ACTIVE B U S B A R D A T A I N P U T ------------- S Y N C H R O N O U S G E N E R A T O R S GENERATION GENERATOR IMPEDANCES PU 0BUSBARP Q RESSYN-XDA-TR-X DANAME (MW) (MVAR)R XD XD' XD" (MSEC)(MSEC)GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBINGT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN7.640.00010.13030.01580.0102 7550.00 30.00 MOBINGT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT6 100.00 77.640.00010.13030.01580.0102 7550.00 30.00 MOBINTDO' OF FOLLOWING MACHINE MISSING0.00250.00250.00000.000.00 GRIDLOAD INITIAL VOLTAGES AREANAME P(MW) Q(MVAR)MAG(PU) ANG(DEG)VNOM.(KV)MBIN132 0.000.00 1.0000 0.000132.000 MOBINGT6 0.000.00 1.0000 0.000 15.000 MOBINGT5 0.000.00 1.0000 0.000 15.000 MOBINGT4 0.000.00 1.0000 0.000 15.000 MOBINGT3 0.000.00 1.0000 0.000 15.000 MOBINGT2 0.000.00 1.0000 0.000 15.000 MOBIN0.000.00 1.0000 0.000 15.000 MOBINGC1 0.000.00 1.0000 0.000 15.000 MOBINGC2 0.000.00 1.0000 0.000 15.000 MOBINGC3 0.000.00 1.0000 0.000 15.000 MOBINGC4 0.000.00 1.0000 0.000 15.000 MOBIN RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) Table 2: List of DATA which arINPUT DATAGENERATION GENERATOR IMPEDANCES PU 0-C TIME CONSTX DA-ST-XTDO'TDO"AREANAME (MW) (MVAR)R XD XD' XD" (MSEC)(MSEC)GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBINGT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN7.640.00010.13030.01580.0102 7550.00 30.00 MOBINGT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN13030.01580.0102 7550.00 30.00 MOBINTDO' OF FOLLOWING MACHINE MISSING 0.00250.00250.00000.000.00 GRIDLOAD INITIAL VOLTAGES AREA NAME P(MW) Q(MVAR)MAG(PU) ANG(DEG)VNOM.(KV) MBIN132 0.000.00 1.0000 0.000132.000 MOBIN GT6 0.000.00 1.0000 0.000 15.000 MOBIN GT5 0.000.00 1.0000 0.000 15.000 MOBIN GT4 0.000.00 1.0000 0.000 15.000 MOBIN GT3 0.000.00 1.0000 0.000 15.000 MOBIN GT2 0.000.00 1.0000 0.000 15.000 MOBIN 0.000.00 1.0000 0.000 15.000 MOBIN GC1 0.000.00 1.0000 0.000 15.000 MOBIN GC2 0.000.00 1.0000 0.000 15.000 MOBIN GC3 0.000.00 1.0000 0.000 15.000 MOBIN GC4 0.000.00 1.0000 0.000 15.000 MOBIN RELAY SETTING (CT2000:5) 1600-0004 ) Table 2: List of DATA which are represented in INPUT DATAC TIME CONST XTDO'TDO"AREANAME (MW) (MVAR)R XD XD' XD" (MSEC)(MSEC) GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBINGT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN7.640.00010.13030.01580.0102 7550.00 30.00 MOBINGT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBINGT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN13030.01580.0102 7550.00 30.00 MOBIN0.00250.00250.00000.000.00 GRID Rev. No.: e represented in PASHA softwareINPUT DATA XTDO'TDO"AREA GT1 107.04 78.050.00010.13030.01580.0102 7550.00 30.00 MOBIN GT2 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN 7.640.00010.13030.01580.0102 7550.00 30.00 MOBIN GT4 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN GT5 100.00 74.450.00010.13030.01580.0102 7550.00 30.00 MOBIN 13030.01580.0102 7550.00 30.00 MOBIN 0.00250.00250.00000.000.00 GRID 0 PASHA software Page 17 17 of 158 X Gas Field Development (Phases GC5 0.000.00 1.0000 0.000 15.000 MOBIN GC6 0.000.00 1.0000 0.000 15.000 MOBIN INT10.000.00 1.0000 0.000132.000 ALL 1S11A 1S11B 0.000.00 1.0000 0.000 33.000 ALL MBF1321 0.000.00 1.0000 0.000132.000 ALL GRID0.000.00 1.0000 0.000132.000 ALL2 J10.000.00 J20.000.00 1.0000 0.000132.000 EXTERNAL J30.000.00 1.0000 0.000132.000 EXTERNAL J40.000.00 1.0000 0.000132.000 EXTERNAL J50.00 J60.000.00 1.0000 0.000132.000 EXTERNAL J70.000.00 1.0000 0.000132.000 EXTERNAL J80.000.00 1.0000 0.000132.000 EXTERNAL J90.00 ACIDA17.00 10.54 1.0000 0.000 20.000 EXTERNAL COMMU10.716.64 1.0000 0.000 20.000 EXTERNAL C2REC 3.402.11 1.0000 0.000 20.000 EXTERNAL UREAA SEAWA10.716.64 1.0000 0.000 20.000 EXTERNAL 4THAR13.608.43 1.0000 0.000 20.000 EXTERNAL ASU17.00 10.54 1.0000 0.000 20.000 EXTERNAL 10THO 9THOL20.40 12.64 1.0000 0.000 20.000 EXTERNAL AU14000.090.05 1.0000 0.0000.400 AU1 AU16KV0.850.53 1.0000 0.0006.000 AU1 AU24000.090.05 1.0000 0.0000.400 AU2 AU36KV0.850.53 1.0000 0.0006.000 AU3 AU34000.090.05 1.0000 0.0000.400 AU3 AU44000.090.05 1.0000 0.0000.400 AU4 AU54000.0 AU66KV0.850.53 1.0000 0.0006.000 AU6 AU64000.090.05 1.0000 0.0000.400 AU6 GRID132 0.000.00 1.0000 0.000132.000 GRID GRID230 0.000.00 1 JGRID 0.000.00 1.0000 0.000 20.000 GRID GRID200.000.00 1.0000 0.000 20.000 GRID GRIDG 0.000.00 1.0000 0.000230.000 GRID OUT10.000.00 1.0000 0.00 J00.000.00 1.0000 0.000132.000 EXTERNAL PH67817.00 10.54 1.0000 0.000 33.000 EXTERNAL STEQU12.753.06 1.0000 0.000 33.000 GASEQUAL DYEQU10.000.00 1.0000 0.000 STEQU22.753.06 1.0000 0.000 33.000 GASEQUAL DYEQU20.000.00 1.0000 0.000 33.000 GASEQUAL DEQSM10.000.00 1.0000 0.000 33.000 GASEQUAL DEQSM20.000.00 1.0000 0 090.000.00 1.0000 0.000 33.000 RELAY REL10.000.00 1.0000 0.000 33.000 RELAY 080.000.00 1.0000 0.000 33.000 RELAY Gas Field Development (Phases GC5 0.000.00 1.0000 0.000 15.000 MOBINGC6 0.000.00 1.0000 0.000 15.000 MOBININT10.000.00 1.0000 0.000132.000 ALL1S11A 0.000.00 1.0000 0.000 33.000 ALL1S11B 0.000.00 1.0000 0.000 33.000 ALLMBF1321 0.000.00 1.0000 0.000132.000 ALLGRID0.000.00 1.0000 0.000132.000 ALL2J10.000.00J20.000.00 1.0000 0.000132.000 EXTERNALJ30.000.00 1.0000 0.000132.000 EXTERNALJ40.000.00 1.0000 0.000132.000 EXTERNALJ50.000.00 1.0000 0.000132.000 EXTERNALJ60.000.00 1.0000 0.000132.000 EXTERNALJ70.000.00 1.0000 0.000132.000 EXTERNALJ80.000.00 1.0000 0.000132.000 EXTERNALJ90.000.00 1.0000 0.000132.000 EXTERNALACIDA17.00 10.54 1.0000 0.000 20.000 EXTERNALCOMMU10.716.64 1.0000 0.000 20.000 EXTERNALC2REC 3.402.11 1.0000 0.000 20.000 EXTERNALUREAA 6.123.79 1.0000 0.000 20.000 EXTERNALSEAWA10.716.64 1.0000 0.000 20.000 EXTERNAL4THAR13.608.43 1.0000 0.000 20.000 EXTERNALASU17.00 10.54 1.0000 0.000 20.000 EXTERNAL10THO17.00 10.54 1.0000 0.000 20.000 EXTERNAL9THOL20.40 12.64 1.0000 0.000 20.000 EXTERNALAU14000.090.05 1.0000 0.0000.400 AU1AU16KV0.850.53 1.0000 0.0006.000 AU1AU24000.090.05 1.0000 0.0000.400 AU2AU36KV0.850.53 1.0000 0.0006.000 AU3AU34000.090.05 1.0000 0.0000.400 AU3AU44000.090.05 1.0000 0.0000.400 AU4AU54000.090.05 1.0000 0.0000.400 AU5AU66KV0.850.53 1.0000 0.0006.000 AU6AU64000.090.05 1.0000 0.0000.400 AU6GRID132 0.000.00 1.0000 0.000132.000 GRIDGRID230 0.000.00 1JGRID 0.000.00 1.0000 0.000 20.000 GRIDGRID200.000.00 1.0000 0.000 20.000 GRIDGRIDG 0.000.00 1.0000 0.000230.000 GRIDOUT10.000.00 1.0000 0.00J00.000.00 1.0000 0.000132.000 EXTERNALPH67817.00 10.54 1.0000 0.000 33.000 EXTERNALSTEQU12.753.06 1.0000 0.000 33.000 GASEQUALDYEQU10.000.00 1.0000 0.000STEQU22.753.06 1.0000 0.000 33.000 GASEQUALDYEQU20.000.00 1.0000 0.000 33.000 GASEQUALDEQSM10.000.00 1.0000 0.000 33.000 GASEQUALDEQSM20.000.00 1.0000 0090.000.00 1.0000 0.000 33.000 RELAYREL10.000.00 1.0000 0.000 33.000 RELAY080.000.00 1.0000 0.000 33.000 RELAY Doc. No. : Gas Field Development (Phases X) GC5 0.000.00 1.0000 0.000 15.000 MOBINGC6 0.000.00 1.0000 0.000 15.000 MOBININT10.000.00 1.0000 0.000132.000 ALL0.000.00 1.0000 0.000 33.000 ALL1S11B 0.000.00 1.0000 0.000 33.000 ALLMBF1321 0.000.00 1.0000 0.000132.000 ALLGRID0.000.00 1.0000 0.000132.000 ALL2J10.000.00 1.0000 0.000132.000 EXTERNALJ20.000.00 1.0000 0.000132.000 EXTERNALJ30.000.00 1.0000 0.000132.000 EXTERNALJ40.000.00 1.0000 0.000132.000 EXTERNAL0.00 1.0000 0.000132.000 EXTERNALJ60.000.00 1.0000 0.000132.000 EXTERNALJ70.000.00 1.0000 0.000132.000 EXTERNALJ80.000.00 1.0000 0.000132.000 EXTERNAL0.00 1.0000 0.000132.000 EXTERNALACIDA17.00 10.54 1.0000 0.000 20.000 EXTERNALCOMMU10.716.64 1.0000 0.000 20.000 EXTERNALC2REC 3.402.11 1.0000 0.000 20.000 EXTERNAL6.123.79 1.0000 0.000 20.000 EXTERNALSEAWA10.716.64 1.0000 0.000 20.000 EXTERNAL4THAR13.608.43 1.0000 0.000 20.000 EXTERNALASU17.00 10.54 1.0000 0.000 20.000 EXTERNAL17.00 10.54 1.0000 0.000 20.000 EXTERNAL9THOL20.40 12.64 1.0000 0.000 20.000 EXTERNALAU14000.090.05 1.0000 0.0000.400 AU1AU16KV0.850.53 1.0000 0.0006.000 AU1AU24000.090.05 1.0000 0.0000.400 AU2AU36KV0.850.53 1.0000 0.0006.000 AU3AU34000.090.05 1.0000 0.0000.400 AU3AU44000.090.05 1.0000 0.0000.400 AU490.05 1.0000 0.0000.400 AU5AU66KV0.850.53 1.0000 0.0006.000 AU6AU64000.090.05 1.0000 0.0000.400 AU6GRID132 0.000.00 1.0000 0.000132.000 GRIDGRID230 0.000.00 1.0000 0.000230.000 GRIDJGRID 0.000.00 1.0000 0.000 20.000 GRIDGRID200.000.00 1.0000 0.000 20.000 GRIDGRIDG 0.000.00 1.0000 0.000230.000 GRIDOUT10.000.00 1.0000 0.00J00.000.00 1.0000 0.000132.000 EXTERNALPH67817.00 10.54 1.0000 0.000 33.000 EXTERNALSTEQU12.753.06 1.0000 0.000 33.000 GASEQUALDYEQU10.000.00 1.0000 0.000STEQU22.753.06 1.0000 0.000 33.000 GASEQUALDYEQU20.000.00 1.0000 0.000 33.000 GASEQUALDEQSM10.000.00 1.0000 0.000 33.000 GASEQUALDEQSM20.000.00 1.0000 0090.000.00 1.0000 0.000 33.000 RELAYREL10.000.00 1.0000 0.000 33.000 RELAY080.000.00 1.0000 0.000 33.000 RELAYRELAY SETTINGSTUDYDoc. No. : NC-) GC5 0.000.00 1.0000 0.000 15.000 MOBINGC6 0.000.00 1.0000 0.000 15.000 MOBININT10.000.00 1.0000 0.000132.000 ALL0.000.00 1.0000 0.000 33.000 ALL1S11B 0.000.00 1.0000 0.000 33.000 ALLMBF1321 0.000.00 1.0000 0.000132.000 ALLGRID0.000.00 1.0000 0.000132.000 ALL21.0000 0.000132.000 EXTERNALJ20.000.00 1.0000 0.000132.000 EXTERNALJ30.000.00 1.0000 0.000132.000 EXTERNALJ40.000.00 1.0000 0.000132.000 EXTERNAL0.00 1.0000 0.000132.000 EXTERNALJ60.000.00 1.0000 0.000132.000 EXTERNALJ70.000.00 1.0000 0.000132.000 EXTERNALJ80.000.00 1.0000 0.000132.000 EXTERNAL0.00 1.0000 0.000132.000 EXTERNALACIDA17.00 10.54 1.0000 0.000 20.000 EXTERNALCOMMU10.716.64 1.0000 0.000 20.000 EXTERNALC2REC 3.402.11 1.0000 0.000 20.000 EXTERNAL6.123.79 1.0000 0.000 20.000 EXTERNALSEAWA10.716.64 1.0000 0.000 20.000 EXTERNAL4THAR13.608.43 1.0000 0.000 20.000 EXTERNALASU17.00 10.54 1.0000 0.000 20.000 EXTERNAL17.00 10.54 1.0000 0.000 20.000 EXTERNAL9THOL20.40 12.64 1.0000 0.000 20.000 EXTERNALAU14000.090.05 1.0000 0.0000.400 AU1AU16KV0.850.53 1.0000 0.0006.000 AU1AU24000.090.05 1.0000 0.0000.400 AU2AU36KV0.850.53 1.0000 0.0006.000 AU3AU34000.090.05 1.0000 0.0000.400 AU3AU44000.090.05 1.0000 0.0000.400 AU490.05 1.0000 0.0000.400 AU5AU66KV0.850.53 1.0000 0.0006.000 AU6AU64000.090.05 1.0000 0.0000.400 AU6GRID132 0.000.00 1.0000 0.000132.000 GRID.0000 0.000230.000 GRIDJGRID 0.000.00 1.0000 0.000 20.000 GRIDGRID200.000.00 1.0000 0.000 20.000 GRIDGRIDG 0.000.00 1.0000 0.000230.000 GRIDOUT10.000.00 1.0000 0.000 33.000 ALLJ00.000.00 1.0000 0.000132.000 EXTERNALPH67817.00 10.54 1.0000 0.000 33.000 EXTERNALSTEQU12.753.06 1.0000 0.000 33.000 GASEQUALDYEQU10.000.00 1.0000 0.000 33.000 GASEQUALSTEQU22.753.06 1.0000 0.000 33.000 GASEQUALDYEQU20.000.00 1.0000 0.000 33.000 GASEQUALDEQSM10.000.00 1.0000 0.000 33.000 GASEQUALDEQSM20.000.00 1.0000 0.000 33.000 GASEQUAL090.000.00 1.0000 0.000 33.000 RELAYREL10.000.00 1.0000 0.000 33.000 RELAY080.000.00 1.0000 0.000 33.000 RELAY RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) GC5 0.000.00 1.0000 0.000 15.000 MOBIN GC6 0.000.00 1.0000 0.000 15.000 MOBIN INT10.000.00 1.0000 0.000132.000 ALL 0.000.00 1.0000 0.000 33.000 ALL 1S11B 0.000.00 1.0000 0.000 33.000 ALL MBF1321 0.000.00 1.0000 0.000132.000 ALL GRID0.000.00 1.0000 0.000132.000 ALL2 1.0000 0.000132.000 EXTERNALJ20.000.00 1.0000 0.000132.000 EXTERNALJ30.000.00 1.0000 0.000132.000 EXTERNALJ40.000.00 1.0000 0.000132.000 EXTERNAL0.00 1.0000 0.000132.000 EXTERNALJ60.000.00 1.0000 0.000132.000 EXTERNALJ70.000.00 1.0000 0.000132.000 EXTERNALJ80.000.00 1.0000 0.000132.000 EXTERNAL0.00 1.0000 0.000132.000 EXTERNALACIDA17.00 10.54 1.0000 0.000 20.000 EXTERNALCOMMU10.716.64 1.0000 0.000 20.000 EXTERNALC2REC 3.402.11 1.0000 0.000 20.000 EXTERNAL6.123.79 1.0000 0.000 20.000 EXTERNALSEAWA10.716.64 1.0000 0.000 20.000 EXTERNAL4THAR13.608.43 1.0000 0.000 20.000 EXTERNALASU17.00 10.54 1.0000 0.000 20.000 EXTERNAL17.00 10.54 1.0000 0.000 20.000 EXTERNAL9THOL20.40 12.64 1.0000 0.000 20.000 EXTERNALAU14000.090.05 1.0000 0.0000.400 AU1 AU16KV0.850.53 1.0000 0.0006.000 AU1 AU24000.090.05 1.0000 0.0000.400 AU2 AU36KV0.850.53 1.0000 0.0006.000 AU3 AU34000.090.05 1.0000 0.0000.400 AU3 AU44000.090.05 1.0000 0.0000.400 AU4 90.05 1.0000 0.0000.400 AU5 AU66KV0.850.53 1.0000 0.0006.000 AU6 AU64000.090.05 1.0000 0.0000.400 AU6 GRID132 0.000.00 1.0000 0.000132.000 GRID .0000 0.000230.000 GRID JGRID 0.000.00 1.0000 0.000 20.000 GRID GRID200.000.00 1.0000 0.000 20.000 GRID GRIDG 0.000.00 1.0000 0.000230.000 GRID 0 33.000 ALL J00.000.00 1.0000 0.000132.000 EXTERNALPH67817.00 10.54 1.0000 0.000 33.000 EXTERNALSTEQU12.753.06 1.0000 0.000 33.000 GASEQUAL33.000 GASEQUALSTEQU22.753.06 1.0000 0.000 33.000 GASEQUALDYEQU20.000.00 1.0000 0.000 33.000 GASEQUALDEQSM10.000.00 1.0000 0.000 33.000 GASEQUAL.000 33.000 GASEQUAL090.000.00 1.0000 0.000 33.000 RELAY REL10.000.00 1.0000 0.000 33.000 RELAY 080.000.00 1.0000 0.000 33.000 RELAY RELAY SETTING (CT2000:5) 1600-0004 ) 1.0000 0.000132.000 EXTERNAL J20.000.00 1.0000 0.000132.000 EXTERNAL J30.000.00 1.0000 0.000132.000 EXTERNAL J40.000.00 1.0000 0.000132.000 EXTERNAL 0.00 1.0000 0.000132.000 EXTERNAL J60.000.00 1.0000 0.000132.000 EXTERNAL J70.000.00 1.0000 0.000132.000 EXTERNAL J80.000.00 1.0000 0.000132.000 EXTERNAL 0.00 1.0000 0.000132.000 EXTERNAL ACIDA17.00 10.54 1.0000 0.000 20.000 EXTERNAL COMMU10.716.64 1.0000 0.000 20.000 EXTERNAL C2REC 3.402.11 1.0000 0.000 20.000 EXTERNAL 6.123.79 1.0000 0.000 20.000 EXTERNAL SEAWA10.716.64 1.0000 0.000 20.000 EXTERNAL 4THAR13.608.43 1.0000 0.000 20.000 EXTERNAL ASU17.00 10.54 1.0000 0.000 20.000 EXTERNAL 17.00 10.54 1.0000 0.000 20.000 EXTERNAL 9THOL20.40 12.64 1.0000 0.000 20.000 EXTERNAL J00.000.00 1.0000 0.000132.000 EXTERNAL PH67817.00 10.54 1.0000 0.000 33.000 EXTERNAL STEQU12.753.06 1.0000 0.000 33.000 GASEQUAL 33.000 GASEQUAL STEQU22.753.06 1.0000 0.000 33.000 GASEQUAL DYEQU20.000.00 1.0000 0.000 33.000 GASEQUAL DEQSM10.000.00 1.0000 0.000 33.000 GASEQUAL .000 33.000 GASEQUAL Rev. No.: 0 Page 18 18 of 158 X Gas Field Development (Phases 070.000.00 1.0000 0.000 060.000.00 1.0000 0.000 33.000 RELAY 050.000.00 1.0000 0.000 33.000 RELAY 040.000.00 1.0000 0.000 33.000 RELAY 030.000.00 1.0000 0.000 33.000 RELAY 020.000.00 1.0000 0.000 33.000 RELAY 010.000.00 1.0000 0.000 33.000 RELAY 147 0.000.00 1.0000 0.000 33.000 11KV 111 103 0.000.00 1.0000 0.000 33.000 11KV

END OF STATIC LOAD DATA

I N D U C T I O N M O T O R S

BUSBAR TYPE NAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACT

ACIDA8010000. 60.50 36.980.00000.00910.00120.00910.0000 COMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL C2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNAL UREAA8003600. 20 SEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL 4THAR8008000. 50.44 30.070.00000.01140.00160.01140.000 ASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL 10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL 9THOL8012000. AU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1 AU1400 8012500.0.430.251.06122.05290.23831.36860.0000 AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2 AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3 AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3 AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU4 AU5400 8012500.0.430.251.06122.05290.2383 AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6 AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU6 PH6788010003. DYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUAL DYEQU29013. 18.479.800.03000.04050.00440.04050.00 DEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUAL DEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUAL

END OF INDUCTION

END OF BUSBAR DATA

Gas Field Development (Phases 070.000.00 1.0000 0.000 060.000.00 1.0000 0.000 33.000 RELAY050.000.00 1.0000 0.000 33.000 RELAY040.000.00 1.0000 0.000 33.000 RELAY030.000.00 1.0000 0.000 33.000 RELAY020.000.00 1.0000 0.000 33.000 RELAY010.000.00 1.0000 0.000 33.000 RELAY147 0.000.00 1.0000 0.000 33.000 11KV111 0.000.00 1.0000 0.000 33.000 11KV103 0.000.00 1.0000 0.000 33.000 11KVEND OF STATIC LOAD DATAI N D U C T I O N M O T O R S LOAD MOTOR IMPEDANCES PUBUSBAR TYPE P QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREANAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACTACIDA8010000. 60.50 36.980.00000.00910.00120.00910.0000COMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNALC2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNALUREAA8003600. 20SEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL4THAR8008000. 50.44 30.070.00000.01140.00160.01140.000ASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL9THOL8012000. 80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNALAU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1AU1400 8012500.0.430.251.06122.05290.23831.36860.0000 AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU4AU5400 8012500.0.430.251.06122.05290.2383AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU6PH6788010003.0.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNALDYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUALDYEQU29013. 18.479.800.03000.04050.00440.04050.00DEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUALDEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUALEND OF INDUCTION MACHINE DATAEND OF BUSBAR DATA Doc. No. : Gas Field Development (Phases X) 070.000.00 1.0000 0.000 060.000.00 1.0000 0.000 33.000 RELAY050.000.00 1.0000 0.000 33.000 RELAY040.000.00 1.0000 0.000 33.000 RELAY030.000.00 1.0000 0.000 33.000 RELAY020.000.00 1.0000 0.000 33.000 RELAY010.000.00 1.0000 0.000 33.000 RELAY147 0.000.00 1.0000 0.000 33.000 11KV0.000.00 1.0000 0.000 33.000 11KV103 0.000.00 1.0000 0.000 33.000 11KVEND OF STATIC LOAD DATA I N D U C T I O N M O T O R S LOAD MOTOR IMPEDANCES PUP QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREANAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACTACIDA8010000. 60.50 36.980.00000.00910.00120.00910.0000COMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNALC2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNALUREAA8003600. 20.15 12.940.00010.02530.00350.02530.00000.00000.903 EXTERNALSEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL4THAR8008000. 50.44 30.070.00000.01140.00160.01140.000ASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNALAU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1AU1400 8012500.0.430.251.06122.05290.23831.36860.0000 AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU4AU5400 8012500.0.430.251.06122.05290.2383AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU60.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNALDYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUALDYEQU29013. 18.479.800.03000.04050.00440.04050.00DEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUALDEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUALMACHINE DATA RELAY SETTINGSTUDYDoc. No. : NC-) 070.000.00 1.0000 0.000 33.000 RELAY060.000.00 1.0000 0.000 33.000 RELAY050.000.00 1.0000 0.000 33.000 RELAY040.000.00 1.0000 0.000 33.000 RELAY030.000.00 1.0000 0.000 33.000 RELAY020.000.00 1.0000 0.000 33.000 RELAY010.000.00 1.0000 0.000 33.000 RELAY147 0.000.00 1.0000 0.000 33.000 11KV0.000.00 1.0000 0.000 33.000 11KV103 0.000.00 1.0000 0.000 33.000 11KVLOAD MOTOR IMPEDANCES PUP QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREANAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACTACIDA8010000. 60.50 36.980.00000.00910.00120.00910.0000COMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNALC2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNAL.15 12.940.00010.02530.00350.02530.00000.00000.903 EXTERNALSEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL4THAR8008000. 50.44 30.070.00000.01140.00160.01140.000ASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNALAU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1AU1400 8012500.0.430.251.06122.05290.23831.36860.0000 AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU4AU5400 8012500.0.430.251.06122.05290.2383AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU60.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNALDYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUALDYEQU29013. 18.479.800.03000.04050.00440.04050.00DEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUALDEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUAL RELAY SETTINGSTUDY (CT2000:5) -6340S-550-1600) 33.000 RELAY 060.000.00 1.0000 0.000 33.000 RELAY 050.000.00 1.0000 0.000 33.000 RELAY 040.000.00 1.0000 0.000 33.000 RELAY 030.000.00 1.0000 0.000 33.000 RELAY 020.000.00 1.0000 0.000 33.000 RELAY 010.000.00 1.0000 0.000 33.000 RELAY 147 0.000.00 1.0000 0.000 33.000 11KV 0.000.00 1.0000 0.000 33.000 11KV 103 0.000.00 1.0000 0.000 33.000 11KV LOAD MOTOR IMPEDANCES PU P QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREANAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACTACIDA8010000. 60.50 36.980.00000.00910.00120.00910.0000COMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNALC2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNAL.15 12.940.00010.02530.00350.02530.00000.00000.903 EXTERNALSEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL4THAR8008000. 50.44 30.070.00000.01140.00160.01140.000ASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNALAU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1AU1400 8012500.0.430.251.06122.05290.23831.36860.0000 AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU4AU5400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU5AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU60.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNALDYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUALDYEQU29013. 18.479.800.03000.04050.00440.04050.00DEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUALDEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUALRELAY SETTING (CT2000:5) 1600-0004 ) P QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREANAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACTACIDA8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNALCOMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNALC2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNAL.15 12.940.00010.02530.00350.02530.00000.00000.903 EXTERNALSEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL4THAR8008000. 50.44 30.070.00000.01140.00160.01140.00000.00000.406 EXTERNALASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNALAU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1AU1400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU1AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU41.36860.00000.0000 48.825 AU5AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU60.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNALDYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUALDYEQU29013. 18.479.800.03000.04050.00440.04050.00000.00001.250 GASEQUALDEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUALDEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUAL Rev. No.: P QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREANAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACT0.00000.325 EXTERNALCOMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNALC2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNAL.15 12.940.00010.02530.00350.02530.00000.00000.903 EXTERNALSEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL00.00000.406 EXTERNALASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNALAU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU10.0000 48.825 AU1AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU41.36860.00000.0000 48.825 AU5AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU60.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNALDYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUAL000.00001.250 GASEQUALDEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUALDEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUAL0 P QSTATORROTOR 1 ROTOR 2 MAGNETISINGAREA NAME PASHA (MW) (MVAR)RESREACTRESREACTRESREACT REACT 0.00000.325 EXTERNAL COMMU8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL C2REC8002000. 14.147.920.00010.04560.00620.04560.00000.00001.625 EXTERNAL .15 12.940.00010.02530.00350.02530.00000.00000.903 EXTERNAL SEAWA8006300. 40.35 23.840.00000.01450.00200.01450.00000.00000.516 EXTERNAL 00.00000.406 EXTERNAL ASU8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL 10THO8010000. 60.50 36.980.00000.00910.00120.00910.00000.00000.325 EXTERNAL 80.75 46.410.00000.00760.00100.00760.00000.00000.271 EXTERNAL AU16KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU1 0.0000 48.825 AU1 AU2400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU2 AU36KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU3 AU3400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU3 AU4400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU4 1.36860.00000.0000 48.825 AU5 AU66KV 8000500.4.302.580.08850.28200.03620.18800.00000.00005.412 AU6 AU6400 8012500.0.430.251.06122.05290.23831.36860.00000.0000 48.825 AU6 0.00 29.930.00000.00910.00120.00910.00000.00000.325 EXTERNAL DYEQU19011. 20.84 10.510.03000.04050.00440.04050.00000.00001.250 GASEQUAL 000.00001.250 GASEQUAL DEQSM19012. 20.30 10.560.00010.04800.00440.04800.00000.00001.556 GASEQUAL DEQSM29014. 18.269.710.00010.04800.00440.04800.00000.00001.556 GASEQUAL Page 19 19 of 158 X Gas Field Development (Phases B R A N C H D A T A I N P U T -------------------------------------

BUSBARBRANCH IMPEDANCES (PU)TRANSFORMERAREAFROMTOPPS AND NPS

GT1GC10.00000.00000.00000.00010.0000MOBINMOBIN15. GT2GC20.00000.00000.00000.00010.0000MOBINMOBIN15. GT3GC30.00000.00000.00000.00010.0000MOBINMOBIN15. GT4GC40.00000.00000.00000.000 GT5GC50.00000.00000.00000.00010.0000MOBINMOBIN15. GT6GC60.00000.00000.00000.00010.0000MOBINMOBIN1 MBIN132GC10.00020.00890.00020.00720.0000 MBIN132GC20.00020.00890.00020.00720.0000 MBIN132GC30.00020.00890.00020. MBIN132GC40.00020.00890.00020.00720.0000 MBIN132GC50.00020.00890.00020.00720.0000 MBIN132GC60.00020.00890.00020.00720.0000 MBIN132MBF13210.00000.00000.00000.00010.0197MOBINALL32150000. MBF1321INT1 0.00040.00120.0012 1S11A1S11B0.00000.00000.00000.00000.0000ALLALL33. GRID MBIN1320.00000.00000.00000.00010.6842ALL2 MOBIN3 MBIN132J1 0.00000.00000.00000.00010.5701MOBINEXTERNAL 32150000. MBIN132J2 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000. MBIN132J3 0.00000.00010.00 MBIN132J4 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000. MBIN132J5 0.00000.00000.00000.00010.4846MOBINEXTERNA MBIN132J6 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000. MBIN132J7 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000. MBIN132J8 0.00000.00000 MBIN132J9 0.00000.00000.00000.00010.6842MOBINEXTERNAL 32180000. J1 ACIDA0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTE J2 COMMU0.00030.01591.04170.01590.0000 0.0 DX1EXTERNAL EXTERNAL 24. J3 C2REC0.00090.05003.28140.05000.0000 0.0 DX1EXTERNAL EXTERNAL 26. J4 UREAA0.00050.02781.82300.02780.0000 0.0 DX1EXTERNAL EXTERNAL 25. J5 SEAWA0.00030.01591.04170.01590.0000 0.0 DX1EXTERNAL EXTERNAL 24. J6 4THAR0.00020.01250.82040.012 J7 ASU0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTERNAL 22. J8 10THO0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTERNAL 2 J9 9THOL0.00020.00830.54690.00830.0000 0.0 DX1EXTERNAL EXTERNAL 21. GT1AU1400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU131. GC1AU16KV 0.01430.08980.01430. GT2AU2400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU231. GT3AU3400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU3 GC3AU36KV 0.01430.08980.01430.08980.0000 0.0 DX11 MOBINAU332. GT4AU4400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU431. GT5AU5400 0.07520.47410.0752 GT6AU6400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU631. GC6AU66KV 0.01430.08980.01430.08980.0000 0.0 DX11 MOBINAU6 GRID132GRID 0.00010.00020.00020.00051.1796GRID ALL2 32180000. Gas Field Development (Phases B R A N C H D A T A I N P U T-------------------------------------BUSBARBRANCH IMPEDANCES (PU)TRANSFORMERAREAFROMTOPPS AND NPS GT1GC10.00000.00000.00000.00010.0000MOBINMOBIN15.GT2GC20.00000.00000.00000.00010.0000MOBINMOBIN15.GT3GC30.00000.00000.00000.00010.0000MOBINMOBIN15.GT4GC40.00000.00000.00000.000GT5GC50.00000.00000.00000.00010.0000MOBINMOBIN15.GT6GC60.00000.00000.00000.00010.0000MOBINMOBIN1MBIN132GC10.00020.00890.00020.00720.0000MBIN132GC20.00020.00890.00020.00720.0000MBIN132GC30.00020.00890.00020.MBIN132GC40.00020.00890.00020.00720.0000MBIN132GC50.00020.00890.00020.00720.0000MBIN132GC60.00020.00890.00020.00720.0000MBIN132MBF13210.00000.00000.00000.00010.0197MOBINALL32150000.MBF1321INT1 0.00040.00120.0012 1S11A1S11B0.00000.00000.00000.00000.0000ALLALL33.GRID MBIN1320.00000.00000.00000.00010.6842ALL2 MOBIN3MBIN132J1 0.00000.00000.00000.00010.5701MOBINEXTERNAL 32150000.MBIN132J2 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J3 0.00000.00010.00MBIN132J4 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J5 0.00000.00000.00000.00010.4846MOBINEXTERNAMBIN132J6 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J7 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J8 0.00000.00000MBIN132J9 0.00000.00000.00000.00010.6842MOBINEXTERNAL 32180000.J1 ACIDA0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTEJ2 COMMU0.00030.01591.04170.01590.0000 0.0 DX1EXTERNAL EXTERNAL 24.J3 C2REC0.00090.05003.28140.05000.0000 0.0 DX1EXTERNAL EXTERNAL 26.J4 UREAA0.00050.02781.82300.02780.0000 0.0 DX1EXTERNAL EXTERNAL 25.J5 SEAWA0.00030.01591.04170.01590.0000 0.0 DX1EXTERNAL EXTERNAL 24.J6 4THAR0.00020.01250.82040.012J7 ASU0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTERNAL 22.J8 10THO0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTERNAL 2J9 9THOL0.00020.00830.54690.00830.0000 0.0 DX1EXTERNAL EXTERNAL 21.GT1AU1400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU131.GC1AU16KV 0.01430.08980.01430.GT2AU2400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU231.GT3AU3400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU3GC3AU36KV 0.01430.08980.01430.08980.0000 0.0 DX11 MOBINAU332.GT4AU4400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU431.GT5AU5400 0.07520.47410.0752 GT6AU6400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU631.GC6AU66KV 0.01430.08980.01430.08980.0000 0.0 DX11 MOBINAU6 GRID132GRID 0.00010.00020.00020.00051.1796GRID ALL2 32180000. Doc. No. : Gas Field Development (Phases X) B R A N C H D A T A I N P U T-------------------------------------BUSBARBRANCH IMPEDANCES (PU)TRANSFORMERAREAFROMTOPPS AND NPS R X R X B(%) CODEGT1GC10.00000.00000.00000.00010.0000MOBINMOBIN15.GT2GC20.00000.00000.00000.00010.0000MOBINMOBIN15.GT3GC30.00000.00000.00000.00010.0000MOBINMOBIN15.GT4GC40.00000.00000.00000.000GT5GC50.00000.00000.00000.00010.0000MOBINMOBIN15.GT6GC60.00000.00000.00000.00010.0000MOBINMOBIN1MBIN132GC10.00020.00890.00020.00720.0000MBIN132GC20.00020.00890.00020.00720.0000MBIN132GC30.00020.00890.00020.MBIN132GC40.00020.00890.00020.00720.0000MBIN132GC50.00020.00890.00020.00720.0000MBIN132GC60.00020.00890.00020.00720.0000MBIN132MBF13210.00000.00000.00000.00010.0197MOBINALL32150000.MBF1321INT1 0.00040.00120.0012 1S11A1S11B0.00000.00000.00000.00000.0000ALLALL33.GRID MBIN1320.00000.00000.00000.00010.6842ALL2 MOBIN3MBIN132J1 0.00000.00000.00000.00010.5701MOBINEXTERNAL 32150000.MBIN132J2 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J3 0.00000.00010.00MBIN132J4 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J5 0.00000.00000.00000.00010.4846MOBINEXTERNAMBIN132J6 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J7 0.00000.00010.00010.00020.2423MOBINEXTERNAL 32140000.MBIN132J8 0.00000.00000MBIN132J9 0.00000.00000.00000.00010.6842MOBINEXTERNAL 32180000.J1 ACIDA0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTEJ2 COMMU0.00030.01591.04170.01590.0000 0.0 DX1EXTERNAL EXTERNAL 24.J3 C2REC0.00090.05003.28140.05000.0000 0.0 DX1EXTERNAL EXTERNAL 26.J4 UREAA0.00050.02781.82300.02780.0000 0.0 DX1EXTERNAL EXTERNAL 25.J5 SEAWA0.00030.01591.04170.01590.0000 0.0 DX1EXTERNAL EXTERNAL 24.J6 4THAR0.00020.01250.82040.012J7 ASU0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTERNAL 22.J8 10THO0.00020.01000.65630.01000.0000 0.0 DX1EXTERNAL EXTERNAL 2J9 9THOL0.00020.00830.54690.00830.0000 0.0 DX1EXTERNAL EXTERNAL 21.GT1AU1400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU131.GC1AU16KV 0.01430.08980.01430.GT2AU2400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU231.GT3AU3400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU3GC3AU36KV 0.01430.08980.01430.08980.0000 0.0 DX11 MOBINAU332.GT4AU4400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU431.GT5AU5400 0.07520.47410.0752 GT6AU6400 0.07520.47410.07520.47410.0000 0.0 DX11 MOBINAU631.GC6AU66KV 0.01430.08980.01430.08980.0000 0.0 DX11 MOBINAU6 GRID132GRID 0.00010.00020.00020.00051.1796GRID ALL2 32180000.RELAY SETTINGSTUDYDoc. No. : NC-) B R A N C H D A T A I N P U T ------------------------------------- BUSBARBRANCH IMPEDANCES (PU)TRANSFORMERAREA ZPS SUSCTAP WINDINGR X R X B(%) CODEGT1GC10.00000.00000.00000.00010.0000MOBINMOBIN15.GT2GC20.00000.00000.00000.00010.0000MOBINMOBIN15.GT3GC30.00000.00000.00000.00010.0000MOBINMOBIN15.GT4GC40.00000.00000.00000.000GT5GC50.00000.00000.00000.00010.0000MOBINMOBIN15.GT6GC60.00000.00000.00000.00010.0000MOBINMOBIN1MBIN132GC10.00020.00890.00020.00720.0000MBIN132GC20.00020.00890.00020.00720.0000MBIN132GC30.00020.00890.00020.00720.0000MBIN132GC40.00020.00890.00020.00720.0000MBIN132GC50.00020.00890.00020.00720.0000MBIN132GC60.00020.00890.00020.00720.0000MBIN132MBF13210.00000.00000.00000.00010.0197MOBINALL32150000.MBF1321INT1 0.00040.00120.00120.00371.3860ALLALL32150000.1S11A1S11B0.00000.00000.00000.00000.0000ALLALL33.GRID MBIN1320.00000.00000.00