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Designhybridrenewable
PowerSystem
Date: 18March2014
XianElectricPowerCollege Class25121
Teacher:Robert羅伯特
UEENEEK033B
DesignHybridPowerSystems
t'OTAB^EOFCONTENTS
.-'__" 2
■ '
■-'II"' ./
Aim
Authorisation
Scope
Theproblem
TOC\o"1-5"\h\z
:■ 6
\o"CurrentDocument"
4.1OutputRequirementsforthePowerSystem 6
Blockdiagramforthehybriddesign 6
\o"CurrentDocument"
Batterystoragesizerequired 6
\o"CurrentDocument"
4.2InputGenerationavailable 7
ConvertingavailablesolarinsolationintokWhr/day 7
ConvertingavailablewindenergyintokWhr/day 9
ConvertingavailablehydropowerintokWhr/day 10
\o"CurrentDocument"
SizingagensettoprovidekWhr/day 10
\o"CurrentDocument"
EnergyavailableateachpositionkWhr/day 11
ThefavouredgenerationMix
ChosenInputGenerationandEnergyavailableinkWhr/day
Systemsizingofgeneration
Otherrequiredcomponents
4.5.1Controlsystem
BatteryStorage
.:.:
:■-.::■'■■■ - .::i:'
.':':
■■■■'
BatteryStorage
SolarPanel
.ED
WindGenerationDiagram
Aim
Inordertodealwithcommuterstohavereliablemobiletelecommunicationnetworksthattheyacrosstherailway,Weneedwindpower.solarpowerandwaterpowertodesignhybridrenewablepowersystems.
Introduce
Accordingtoresearch.Weneedwind.andequipmentare1KWWindTurbine
GeneratorController
Towermounting
solar:equipmentincludeshighqualitysolarmoduleswith25yearwarranty.AndsolarmodulemountingframesinadditionLCDdisplaywithdataloggingmaximumpowerpointtrackingsolarboostersolarmoduletrackingframes.
Scope
Dependingonthenewrailwaylines,Andthehybridrenewablepowersystemslivesnearhere.
Theproblem
Difficulttocontroltheclimateandexhaustnoise.
Conventionalhydrorequiresthefloodingoflackinglargeareasofland,andbatterycostandinvertercost.
Accordingtoresearch,wecanlearnthatRemotedistrictsuseelectricitytheloadnottobeallbiggenerally,thereforeisuneconomicalwiththeelectricalnetworkpowertransmission,directlygenerateselectricitycommonlyusedinthelocalityusesthedieselelectricengine.Butthedieseloilstorageandtransporttooishightotheremotedistrictscost,thereforethedieselelectricengineonlycantakeonekindofshort-timeemergencypowersupply,Mustsolvethelong-termstabilityreliablepowersupplyproblem,onlycanrelyonlocalthenaturalenergysource.Thesolarenergygentlebreezecanbemostuniversalandthewaterpower,
Solarpower
Accordtosolardata,weusesolarpowerinsummerfromeleveno'clocktofourteeneverydayandwintertimeisfromeleveno'clocktothirteen
Inordertogooduseofwindpower,WelearnthatsometimesthewindspeedisthehighestinAutumn,onthecontrary,thewindhavetheleastspring
Thewatersystemtransmitspowerfromtheturbineshafttothegeneratorshaftortheshaftpoweringanotherdevice,andasthevoltageisveryhighwiringcanbekepttoaminimumandthewiringcanberunoveralongerdistanceduetothehighervoltage
3DESIGNOFHYBEUDPOV/BRSYSTi^:
OutputRequirementsforthePowerSystem
Themaximumtotalenergyrequirementsbythetelecommunicationtransmittersiteis1kWhr/day.
Typicallymosttelecommunictionsinfrastructureworkson48VDC
Themaximumcurrentforthieoutputequipmentwouldbeunder10Amps
Thedesignwillincorporatestorageofenergyfor3daysinthecaseforlackofgenerationfromalloftheinputs
4.1.1Blockdiagramforthehybriddesign
4.1.2Batterystoragesizerequired
TocalculatethesizeofthebatterybankrequiredweconvertedthetoataldailyenergyconsumptioninWatt-hourstoAmp-hours.
DailyEnergyUse
AmpHours=used SystemVoltage
1kWhr
48V
=20Ahr
Thenmultiplythisbytherequirednumberofdaysstorageplusoneadditionalday'senergyuse
Forthislocationwefactor3daysstorage
BatteryCapacity=AmpHoursxdays +(DailyEnergyUse)
days usedstorage
=20Ahrx3+20Ahr
=80Ahr
SeeappendixAfortypiclbatterytypestobeused
InputGenerationavailable
PositiononMountain
EnergyResourceAvailable
Resourcesavailablesummer
Resourcesavailablewinter
Top(pointE)
Solarpower
350Wh/m2for
7hours/day
450Wh/m2for6hours/day
WindPower
8m/sfor
3hours/day
10m/sfor
4hours/day
Mid(pointF)
Solarpower
240Wh/m2for
5hours/day
2110Wh/m2for6hours/day
WindPower
10m/sfor
3hours/day
14m/sfor4hours/day
Lower(pointG)
Solarpower
220Wh/m2for
5hours/day
30Wh/m2for
1hours/day
WindPower
3m/sfor
3hours/day
2m/sfor
4hours/day
Hydropower
300L/min
300L/min
10L/min*
*for2monthstheflowisreducedto10L/min
Dieselgenerationcan/cannotbeusedasbackuppowersource.
4.2.1ConvertingavailablesolarinsolationintokWhr/dayConvertingthevaluesofWh/m2intokWh/day
SUMMER
40Wh/m2for5hoursperday
(5/24hours=0.2days)
Theamountofenergyavailableforsolarpowerdependsuponthearea(m2)ofthePVarray
40Wh/m2
Soat40Wh/m2for5hoursperday kWh/m2day=°2days
=0.020kWh/m2day
ForthesolarPVarraytoprovidealloftheenergyforoneday(1kWh/day)willrequire50m2ofsolarpanels(abouthalfasizeofahouse)
WINTER
50Wh/m2for1hourperday
(1/24hours=0.04days)
kWh/mday50Wh/m2
0.04days=0.002kWh/m2day
ForthesolarPVarraytoprovidealloftheenergyforoneday(1kWh/day)willrequire500m2ofsolarpanels(about4-5housesizes)
ConvertingavailablewindenergyintokWhr/day
Windenergyperdaythatisavailableateachsiteiscalculatedusingthefollowingequation
PowerOutputP=PxCxA
outputwindO
=1p v3xCxA
2air O
Co=0.3fora3bladeturbine
A=areaofbladesv=averagevelocityofthewindpair=1.21kg/m3=(Airdensity)
Forawindgeneratorin10m/swind(3hoursperday)toproduce1kWh/daytheAreaofthebladesneedstobeasfollows
E/號days
A=―out_24
+pV3C
2airO
1000/24hours
= =44m2
Radius/diameterofblade +x1.21x103x0.3
2
A=k.r2
■■A :"44
r= = =3.7mradius(or7.5mdiameter)
兀 兀
A7.5mdiameterbladewindturbine(approximately7.5kW)cansupplyenoughenergytothesystemforonedayoperation
ConvertingavailablehydropowerintokWhr/day
P=QgH Ewatts]
Q=flowrateL/s
G=gravity9.81(m/s)Hisusablehead(m)
Athestreamflowof300L/minisavailable24hoursadayexceptinthewintermonthswheretwomonthsofflowisheavilyreducedto10L/min
E
perday
=QgHx24hours
300L/min
60sec/min
x9.81x10x24
=11772Wh/day
Thereisplentyofheadandpoweravailablefromthewaterresourceinthesummer
Inthewinter
E =QgHx24hours EWh/day]
perday
10L/min
x9.81x10x2460sec/min
=392Wh/day
SizingagensettoprovidekWhr/day
38MJ/L
PositiononMountain
SizeofEnergyconverterneeded
Energyavailablesummer
Energyavailablewinter
Top(pointE)
WindPower
(7.8mdiameter)
8.5kWh/day
8.6kWh/day
Lower(pointG)
Hydropower
11kWh/day
0.5kWh/day
EnergyavailableateachpositionkWhr/day
PositiononMountain
SizeofEnergyconverterneeded
Energyavailablesummer
Energyavailablewinter
Top(pointE)
Solarpower(350m2)
7.5kWh/day
8.4kWh/day
Windpower
(120mdiameter)
10kWh/day
11kWh/day
Mid(pointF)
WindPower(76mdiameter)
5.7kWh/day
6.3kWh/day
Lower(pointE)
Solarpower(230m2)
8kWh/day
kWh/day
kWh/day
WindPower(160mdiameter)
8KWh/day
7.8kWh/day
Hydropower
11kWh/day
11kWh/day*0.4kWh/day
Alistofreferencesused
Websites
Components
htw0Fvahbab3C5ntn<>dua-degilE-Bike-E-?cooter-LffEPO4-batterv1388518948_htmi.hffnwwwalilviba<*rwnnmrliiW1nnOftr-4*v.ftOsR.GInHArx??>v?VeQ44O4AJ??ka^.1
Conclusion
MakegooduseofsourcecanimprovethesourceefficiencyControlthepowerdeliverytotheloads
Reducethebatterycost
Basedonenvironment,adjustthesour
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