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transcript
27April,2016
115KV/34.5KVSOLARPLANT/SUBSTATIONCHASEBENTON: TEAMLEADERSENKODIZDAREVIC: COMMUNICATIONLEADERARIFIBRAHIM: WEBMASTERMAKOKOMUKUMBILWA: KEYCONCEPTHOLDER
SPONSOR/CLIENT: BLACK&VEATCH– ADAMLITERSKI,RAHULRAMANANADVISOR: DR.VENKATARAMANAAJJARAPU
Disclaimer:LogosandgraphicsareregisteredtrademarksofBlack&Veatch.Usedherewithpermission.
• ProjectOverview(Scope)• Deliverables• Specification(Parameters)• SolarPowerPlantDesign• SubstationDesign• Simulations
AGENDA
• PlantLocation• Iowa• Choosebestlocation
• 60MWSolarPowerPlant• Plant/componentsizing• Plantlayout• ProductionSimulation
• Attached115kV/34.5kVSubstation• Substationone-linedrawings• Substationthree-linedrawings
PROJECTOVERVIEW
• Solarpowerplantlayoutandconductorsizing• Plantandsubstationcomponentconnections• Substationone-line/three-linedrawings• Drawinglist• Productionsimulationdata• Engineeringmanhourbudgetandschedule• ProjectpresentationtoBlack&Veatch
DELIVERABLES
• Location:Iowa• FixedRack325WHanwhaQCellssolarmodules• 1670kWEatonXpert inverter• 1500VDCstringvoltage• ≈1.30InverterLoadRatio(ILR)
• Substationspecificationdocument• Arcadiasinglelinediagram• ANSIstandarddevicenumbers
SOLARPLANTREQUIREDSPECIFICATIONS
SUBSTATIONREQUIREDSPECIFICATIONS
325WHANWHAQCELLSSOLARMODULE
PhototakenatB&Vengineeringoffice.
• UsingtheIowaenergycentersolarcalculatortool
• Areamostsuitable:SouthwestIowa*• ButweareusingAmes/BooneareaduelackoftemperaturedatainSWIowa
SOLARPOWERPLANTLOCATION
SOLARPOWERPLANTAREA– CALCULATION
ARRAYPARAMETERTOOL
AbsoluteMinTemp
ModuleDimensions
DesiredTilt/Azimuth
Stringsize
Modulevoc&Isc
TempCoefficient
InverterACCapacity
DesiredSpacing
Corrected StringVoltageCombinerBoxCurrent
TotalDCCapacity
InverterLoadRatio
TiltAdjustedDimensions
GroundCoverageRatio
TotalACCapacity
ArrayP
aram
eter
Tool
SINGLERACKDETAIL
• 36totalarrays• Components– perarray
• 118racksperinverter• 11combinersperinverter• 12rackspercombiner*• 2stringsperrack• 28modulesperstring• 6608modulesperarray
• Spacing– perarray• 12ft betweenrows• 16ft inverteraccessroadinthemiddle
SOLARPOWERPLANTDESIGN– ONEARRAY551.04ft
91.84ft12.63ft
1
2
3
508.69ft4
516.00ft
6 7
8
9
10
11
12.00ft
LegendRack CombinerBoxwithidentificationnumber
InverterSkid--NottoScale Inverter/Step-upXformer
DETAILEDSOLARARRAY−AUTOCAD
• Irradiancecorrectionfactorof1.25−NEC690(A)(1)• Continuouscurrentcorrectionof1.25−NEC690(B)(1)• UsedNEC310guidelinestosizeconductorsforsolarpowerplant
• ReferencedNEC310Table300.50forminimumburialdepthrequirements
• Conductorselection−NECTable310.15(B)(16) andTable310.15(B)(17) guidelines.
SOLARARRAYCONDUCTORSIZING
ConductorsRevised:Conductors MaxIsc(A) Type Material Temp(degC) AWG CableRating(A) MinimumDepth FuseStringConductor 14.75 FreeAir Copper 75 12 35 NA 15RacktoCB-Jumper 29.5 FreeAir Copper 75 10 50 NA 30CBtoInverter-DCfeeder 354 Buried Aluminum 75 700 375 30inch 355XformertoCollector 116 Buried Aluminum 75 1\0 120 36inch (*)
SUBSTATIONSYSTEMBLOCKDIAGRAM
COLLECTOR
FEEDER
KEYPROTECTION
KEYPROTECTION
• 3PhaseACSchematics• DCSchematics:Air-BreakerBypassSwitches(ABS),SEL-451(PrimaryRelay),SEL-351(Feeder&BackupRelay)
• Communication(RTU,Router,RLHCardandEthernetSwitches)
• ACandDCLoadCenters• PanelElevations
SUBSTATION3LINEDRAWINGS
ACTHREELINEDRAWING
PRIMARYRELAYDCDRAWING
SOLARPOWERPLANTLAYOUT237,888panels– 36arrays– 60MWac – 240acres
ANNUALSOLARRADIATION
EXPECTEDPRODUCTION
HelioScopeSimulation:99.73millionkWh/yearComparison:OlmedillaPVPark(60MW):87.5 millionkWh/year
ESTIMATEDSYSTEMLOSSESSolarpowerlosses17.9%of77.3MWp
Helioscope Simulation
• Projectedcost:PVWatts Estimate• Solarpowerplant−$ 255,134,880• $4.25Million/MW• Substation−$20,000,000• Grandtotal−$275,134,880
• FORCOMPARISON:TopazPVPlant• $2.5Billion• 550MW• $4.53Million/MW
PVPLANTCOST
MANHOURBUDGET115 kV / 34.5 kV Solar Power Plant / Substation
StartWeekBreak Projected Overrun BillableHours
Week 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16Aug Sep Sep Sep Sep Oct Oct Oct Oct Nov Nov Nov Nov Nov Dec Dec31 7 14 21 28 5 12 19 26 2 9 16 23 30 7 14 Tasks/Assignements
Meetings-client & advisorsAssigntasks/beginresearch
5 Teamroles/advisorsmeetings1 Discussprojectscopewithclient
0 Solarplantsizedetermination
2 ProjectPlanV1DesigndocumentV1Solararrayparameters
L Solararraylayout
L Solarplantconductors
A Substationone-linedrawings
F Substationthree-linedrawingsProjectPlanV2DesignDocumentV2PresentationslidesandrehearsalFacultypresentationFinalizedeliverables
SUM
HoursBudget 5.0 10.0 10.0 10.0 20.0 20.0 20.0 30.0 30.0 15.0 15.0 30.0 0.0 40.0 10.0 2.0 267.0
HoursActual 4.0 10.0 8.5 16.5 25.0 16.5 44.0 37.0 24.0 16.0 18.0 31.5 0.0 59.0 29.5 1.0 340.5
%ofBudget 80 100 85 165 125 83 220 123 80 107 120 105 0 148 3 1 127.5
StartWeekBreak Projected Overrun BillableHours
Week 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16StartDate Jan Jan Jan Feb Feb Feb Feb Feb Mar Mar Mar Mar Apr Apr Apr Apr
11 18 25 1 8 15 22 29 7 14 21 28 4 11 18 25 Tasks/AssignementsMeetings-client & advisors
6 Fall2015review
1 3-lineacdrawings
0 3-line89drawings
2 3-linebankdrawings3-linebudrawing3-linecommdrawings
G 3-linedcdrawings/ethernet
N 3-linefeederdrawings
I DesigndocumentV3
R Optimization
P Presentationpreperation
S BVpresentationIRPpresentation
SUM
HoursBudget 8.0 8.0 8.0 8.0 8.0 10.0 10.0 8.0 15.0 0.0 10.0 20.0 20.0 10.0 20.0 2.0 165.0
HoursActual 7.5 18.5 19.5 17.5 4.5 9.0 16.5 23.0 41.5 0.0 8.5 24.0 34.0 19.0 25.0 2.0 270.0
%ofBudget 94 231 244 219 56 90 165 288 277 0 85 120 170 190 125 100 163.6
Jan11,2016
Aug31,2015
StartDate
BLACK&VEATCH VISIT
Overland Park,Kansas
• Industryterminology
• LackofexperiencewithAutoCAD
• Teamcommunicationsassociatedwithtrackinglargenumberofdrawingandparameterrevisions.
• FamiliaritywithNECcoderegulations
• Lackofsolarpanelparameterknowledge.Suchasstringvoltagelimitations,MPP,temperatureaffectsofonpanelvoltage.
• Lackofface-to-facemeetingswithclient/mentor.
INITIALCHALLENGESANDDIFFICULTIES
• Designprocessbookkeepingandmanhourbudget.• Solarpowergenerationparameters.• HowtomaximizeutilizationofinvertersbyincreasingDCcapacityaboveinverterratings.
• Designmodularityintosolararraystoallowflexibilityofplacement.
• Experiencewithsubstationrelaycircuitry&communicationcircuitry.
• ImportanceofNECCodecompliance.•Minimizingcost−usealuminumforlargeconductors,minimizespace.
• SimulationofexpectedkWhproduction.
WHATWELEARNED– QUICKSUMMARY
QUESTIONS?