Distribuovaná energie

Meaning

Themostconcisedefinitionofdistributedpoweris:35kVandbelowthepowersupplythatisnotdirectlyconnectedtothecentralizedtransmissionsystem,whichmainlyincludespowergenerationequipmentandenergystoragedevices.

Advantages

(1)Economical:Becausedistributedgenerationislocatedontheusersideandclosetotheloadcenter,theconstructioncostandlossofthetransmissionanddistributionnetworkaregreatlyreduced;atthesametime,thedistributionPowergenerationplanningandconstructioncycleisshort,investmentiseffective,andinvestmentriskissmall.

(2)Environmentalprotection:Distributedpowergenerationcanmakeextensiveuseofcleanandrenewableenergy,reducingtheconsumptionoffossilenergyandtheemissionofharmfulgases.

(3)Flexibility:Distributedpowergenerationsystemsmostlyusesmallandmedium-sizedmodularequipmentwithadvancedperformance,whicharefastonandoff,convenientformaintenanceandmanagement,flexibleadjustment,andeachpowersourceisrelativelyindependent,whichcanmeetpeakshavingandfilling.Valley,powersupplyforimportantusersandotherdifferentneeds.

(4)Security:Therearevariousformsofdistributedpowergeneration,whichcanreducethedependenceonasingleenergysourceandalleviatetheexpansionoftheenergycrisistoacertainextent;atthesametime,thedistributedpowergenerationlocationisscattered,anditisnotvulnerabletoaccidentaldisasters.Ortheimpactofemergencieshasthepotentialtowithstandlarge-scaleblackouts.

Features

Distributedenergysystemsdonotsimplyusetraditionalpowergenerationtechnologies,butarebasedonnewtechnologiessuchasautomaticcontrolsystems,advancedmaterialtechnologies,andflexiblemanufacturingprocesses.Onthebasis,anewenergyproductionsystemwithlowpollutionemissions,flexibility,convenience,highreliabilityandhighefficiency.

Thepowergenerationsystemthatcomposesthedistributedenergysystemhasthefollowingcharacteristics:

①Efficientuseofwasteenergygeneratedbypowergenerationtogenerateheatandelectricity;

②On-siteRenewableenergysystem;

③Includesanenergyrecyclingsystemthatuseson-sitewastegas,wasteheatandexcesspressuretogenerateelectricity.

Classification

DistributedGeneration(DG)devicescanbedividedintocogenerationpowergeneration,internalcombustionenginepowergeneration,gasturbinepowergeneration,andsmallhydropowergenerationaccordingtodifferenttechnologiesused.,Windpower,solarphotovoltaicpowergeneration,fuelcells,etc.;accordingtothetypeofenergyused,DGcanbedividedintofossilenergy(coal,oil,naturalgas)powergenerationandrenewableenergy(wind,solar,tidal,biomass,smallhydropower,etc.))Twoformsofpowergeneration.DistributedEnergyStorage(DES)devicesrefertoenergystorageandconversiondevicesthataremodular,canbequicklyassembled,andconnectedtothepowerdistributionnetwork.Accordingtodifferentformsofenergystorage,DEScanbedividedintoelectrochemicalenergystorage(suchasbatteryenergystoragedevices),electromagneticenergystorage(suchassuperconductingenergystorageandsupercapacitorenergystorage,etc.),mechanicalenergystoragedevices(suchasflywheelenergystorageandCompressedairenergystorage,etc.),thermalenergystoragedevices,etc.Inaddition,thefast-developingelectricvehiclescanalsosendelectricitytothedistributionnetworkwhenneeded,soitisalsoakindofDES.

Definition

Thedefinitionofdistributedpoweristhatitislocatedneartheuser,thegeneratedpowercanbeusedon-site,anditisconnectedtothegridatavoltagelevelof10kVandbelow,andasinglegrid-connectedpointhasatotalPowergenerationprojectswithinstalledcapacitynotexceeding6MW.Includingsolarenergy,naturalgas,biomassenergy,windenergy,geothermalenergy,oceanenergy,comprehensiveutilizationofresourcesforpowergenerationandothertypes.

Účel

Dnešní distribuované zdroje energie se týkají hlavně vnitřních spalovacích motorů (IC), které používají kapalná nebo plynná paliva, mikroturbíny (mikroturbíny), a různé inženýrské palivové články (FuelCell), solární elektrárny a větrné turbíny. erthesameconcept.

Běžný model

Distribuovaný stejnosměrný napájecí zdroj 400 W;

800W;600W;široký rozsah aplikací,

Vysoký výkon

Význam

Distribuovaná energie může využívat zemní plyn, uhelný metan a další paliva a také zdroje odpadních plynů, jako je bioplyn, koksárenský plyn, a dokonce i větrná energie, solární energie a voda. Nejrozšířenějšími zdroji distribuované energie jsou převážně zemní plyn nebo nafta. Důležitost rozvoje distribuované energie má konkrétně následující aspekty:

(1)Úspora

BecausethewasteheatofdistributedenergycanbeusedtogenerateelectricityHeatingandcooling,soenergycanbeusedinareasonablecascade,whichcanimprovetheefficiencyofenergyuse(upto70%-90%).Duetotheintegrationofdistributedpowersources,large-scalepowerplantsandhigh-voltagetransmissiongridshavebeenreducedorpostponed,andtheconstructionofpowergridshasbeenpostponedtosaveinvestment.Atthesametime,thepowerflowofthetransmissionanddistributionnetworkisreduced,andthenetworklossiscorrespondinglyreduced.

(2)Ochrana životního prostředí

Becauseitusesnaturalgasasfuelorhydrogen,solarenergy,andwindenergyasenergysources,itcanreducethetotalemissionsofharmfulsubstances.Reducethepressureonenvironmentalprotection:Alargeamountofnearbypowersupplyreducestheconstructionoflarge-capacityandlong-distancehigh-voltagetransmissionlines,whichnotonlyreducestheelectromagneticpollutionofhigh-voltagetransmissionlines,butalsoreducesthelandacquisitionareaandlinecorridorsofhigh-voltagetransmissionlines.Thefellingoftreesunderthelineisconducivetoenvironmentalprotection.

(3)Rozmanitost využití energie

Distributedpowergenerationcanuseavarietyofenergysources,suchascleanenergy(naturalgas)andnewenergy(hydrogen)Andrenewableenergy(windenergyandsolarenergy,etc.),andprovideuserswithmultipleenergyapplicationssuchascold,heat,andelectricityatthesametime,soitisagoodwaytosolvetheenergycrisis,improveenergyefficiencyandenergysecurity.

(4)Peakshaving effect

Summerandwinterareoftenthepeakperiodsofload.Atthistime,suchastheuseofnaturalgasasfuelgasturbinesandothercold,Thecombinedheatandpowersystemcannotonlysolvethecoolingandheatingneedsinwinterandsummer,butalsoprovidepartoftheelectricity,whichcanreducethepeakandfillthevalley.Inaddition,italsopartiallysolvedtheproblemofexcessivepeak-to-valleydifferenceinnaturalgassupply,andplayedacomplementaryroleinnaturalgasandelectricity.

(5)Bezpečnost a spolehlivost

Whenalarge-scaleblackoutoccursinalargepowergrid,aspeciallydesigneddistributedpowergenerationsystemcanstillmaintainNormaloperation,whichcanimprovethesafetyandreliabilityofpowersupply.

(6)Problémy s Powermarketem

Distributedpowergenerationcanadapttotheneedsofpowermarketdevelopment.Multiplefundsareusedtogeneratepower,andthepowerconstructionmarketcanbefullyutilized.Thecompetitionmechanismoftheelectricitysupplymarket.

(7)Investiční riziko

Theinstalledcapacityofdistributedpowergenerationisgenerallysmallandtheconstructionperiodisshort,soitcanbeavoidedSimilartotheinvestmentrisksbroughtbytheconstructioncycleoflargepowerstations.

(8)Problémy s napájením ve vzdálených oblastech

ManyremoteandruralareasThegridsuppliespowertoit.Anindependentpowergenerationsystemusingsolarphotovoltaicpowergeneration,windpowergenerationandbiomasspowergenerationisapreferredmethod.