2025儲能行業(yè)趨勢報告 The state of Energy Storage Trends Report in 2025

TRENDREPORT

THESTATEOF

ENERGYSTORAGEIN2025

GREYB.COM

TableofContents

01

Introduction

02

HydrogenEnergyStorage

03

BatteryEnergyStorage

04

ThermalEnergyStorage

05

DistributedEnergyStorage

06

AdvancedLi-ionBattery

FoodTechTrends2025

02

Introduction

Energystorageisrapidlydeveloping,andresearchisbeingconductedtoproduceefficientlong-termsolutions.It'sanimportantpartofthemanufacturing,service,renewableenergy,andportableelectronicsindustries.

Countriesworldwideareingreatdemandforswitchingtorenewableenergy.Asmanycountriesjointhistsunamiofchange,technologicalgrowthisunavoidable.

TheEnergyStorageMarketsizeisestimatedatUSD51.10billionin2024andisexpectedtoreachUSD99.72billionby2029,growingataCAGRof14.31%duringtheforecastperiod(2024-2029).(

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Technologyadvancementisonefactorinthishugedemand.In2025,stakeholderswillmakemoreeffortstoimproveexistingenergystoragesolutionswhileadvancingnewideas.

Thisreportdiscusses10innovationtrendsthattheenergystorageindustrywouldbefocusingonin2025.

99.7

CAGR

14.31%

51.1

20242029

03

EnergyStorageTrends2025

Trend1:

HYDROGENENERGYSTORAGE

04

HydrogenEnergyStorageisatypeofchemicalenergystoragewhereinelectricalpoweristransformedintohydrogen.Thisenergyisthenrecoveredbyburningthegasinacombustionengineorafuelcell.

Hydrogenisemployedinvariousindustrialapplications,suchasglass,fertilizer,steel,andchemicalmanufacturing.Duetoenvironmentalregulationsandcustomerpreferences,thesebusinessesurgentlyneedtoreducetheircarbonfootprints.

Therapidindustrializationofdevelopingcountries,aswellastheincreasedadoptionofalternatekindsofenergy,aredrivingmarketexpansion.Amongtheprimaryobjectivesintendedbythegovernmentarethedevelopmentandbuildingofcost-effectiveandenergy-savinghydrogenplantsaroundthecountry.(

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HydrogenEnergyStoragemarketindustryisprojectedtogrowfromUSD19.9Billionin2024toUSD35.21billionby2032,exhibitingacompoundannualgrowthrate(CAGR)of8.50%(

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GlobalHydrogenEnergyStorageMarketSizeduring2024-2032($Billion)

35.2

CAGR

9.9%

19.9

20242032

Themarketpotentialofhydrogenenergystoragesystemsisgreatbutlikeallsolutions,italsocomeswithcertainbenefitsandchallenges.

05

EnergyStorageTrends2025

AdvantagesofUsingAlternativeProteins

Enablinggreaterincorporationofrenewableenergygeneration-WhilecollectingtherenewablepowerinputsfromRES,hydrogen,asakindofenergystorage,canofferfuelforcreatingelectricityorheatorforfuelinganautomobile.Whenneeded,thestoredhydrogencanbeusedtogenerateelectricity,oritcanbeusedinotherenergy-intensivesectorssuchasthegasgrid,transportationasafuel,andindustrialactivities.Hydrogenstorageisnotlimitedbyregionandcantransferlimitedrenewablegenerationintootherenergy-intensivesectors.(

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ChallengesofAlternativeProteins

Highcapitalcostoftheliquid-Atthemoment,hydrogenenergystorageismorecostlythanfossilfuel.Themajorityofthesehydrogenstoragetechnologiesareintheearlydevelopmentstages.Thequantityofenergythatfuelcellscancreatefromhydrogenandthenusetomeettheneedsofcommercialandresidentialbuildingsisexceedinglylow.Duetothehighinsulationexpensesrequiredtopreventvaporization,themarketforstoringhydrogenenergyinliquidformhassignificantcapitalexpenditures.Hence,thetimeandcostofcharginganddischarginghydrogeninthesesystemsandtheprocessexpensesaresignificant.

Strictgovernmentregulations-Stringentgovernmentrulesgoverningtheproductionofhydrogenbyelectrolysishavebeenhinderingtheexpansionoftheworldwidehydrogenenergystoragesector.Themanufactureandapplicationofhydrogenareprohibitedinseveralareas.Themanufacturingprocesscanendangerthelivesofthosewhoworkinfactories.(

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06

EnergyStorageTrends2025

StartupsWorkingonHydrogenEnergyStorage

1.NPROXX

NPROXX,basedintheNetherlands,isawell-knownplayerinhigh-pressurehydrogenstorageforbothstationaryandmobileapplications.Thecompanyisrecognizedfordesigning,producing,andmanufacturingType4pressurevesselsforhigh-pressurehydrogenstorage.NPROXX'sCFRPType4pressurevesselscanbeutilizedforupto30yearswithoutneedingtobereplaced,whichistwicetheestimatedlifedurationofType1andType2vessels.ThepressurevesselsofType4havenominalworkingpressuresof350bar,500bar,and700bar.(

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Type4PressureVessels

2.GRZTechnologies

GRZTechnologies,headquarteredinSwitzerland,manufactureshydrogen-basedpower-to-powersolutionsandthermochemicalhydrogencompressorswiththegoalofstoringlargeamountsofrenewableenergyandenabling100%sustainableenergyinthefuture.

Thecompany'sDASHStorageModulesaresolid-statehydrogenstoragetechnologiesthatallowhydrogentobestoredinsolid,atomicformwithinauniquemetallicframework.(

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07

EnergyStorageTrends2025

3.H2Heat

H2Heatisapioneeringcleantechnologystartup.Thefirmcreateshigh-capacity,efficient,compact,safe,portable,andcost-effectiveheatandhydrogenstoragesystemsbasedonthethermochemicalreactionsofnewnanomaterialsandmicro-heattransmissiontechnologies.(

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H2Heatusesarevolutionarysolid-statenanocompositeofcomplicatedmetallicalloys,acutting-edgetankdesign,andamicro-heattransmissiontechnologytostoreasignificantamountofhydrogenatoms.TheH2gas,whichisproducedbysteamreforming,renewableenergiesviaelectrolyzers,andotherprocesses,goesthroughaspecificplatethatdissociatestheH2moleculesintoH+atoms.H2atomspermeateintothematerialandformchemicalbondswithstoragemediumatomsviaanexothermicprocesswithauseableheatof7kWh/kgH2at160°C.(

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4.HySiLabs

HySiLabsisdevelopingamethodtomakehydrogentransportandstoragesimplerbychargingitinasafeliquidcarrier.HydrogenisinfusedintoHydroSil,aliquidsiliconhydridederivativethatisstable,non-toxic,non-explosive,hasalongstoragelife,andisclassifiedasanon-hazardousgood.Thegasisthenreleasedondemandattheconsuminglocation.Thismethod,whichallowstheutilizationofexistingfossilfuelinfrastructure,revolutionizesthehydrogentransportsector.(

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EnergyStorageTrends2025

Trend2:

BATTERYENERGYSTORAGESYSTEM

BatteryEnergyStorageSystem(BESS)isatechnologythatusesspecificallybuiltbatteriestostoreelectriccharge.Theessentialconceptisthatsuchstoredenergycanbeusedlater.Muchresearchhasresultedinbatteryadvancements,transformingthenotionofaBESSintoacommercialreality.

Abatteryenergystoragesystemoperatesonasimpleconcept.Batteriescollectelectricityfromthepowergrid,thepowerstation,orarenewableenergysourcesuchassolarpanels.Theystoreitascurrentandwillreleaseitwhenrequired.

AustralianandGermanhomeownersbuiltaround31,000and100,000batteryenergystoragesystems,respectively,by2020.Large-scaleBESSsarenowoperationalinnationssuchastheUnitedStates,Australia,theUnitedKingdom,Japan,China,andmanyothers.JacksonGroup,aNoida-basedpowerandinfrastructurecorporation,introducedEnerPack,arevolutionary(BESS),inSeptember2021tominimizeclimatechangeandensureacontinuoussupplyofgreenenergy.(

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TheBatteryEnergyStoragemarketindustryisprojectedtogrowfromUSD7.8Billionin2024toUSD25.6billionby2029,exhibitingacompoundannualgrowthrate(CAGR)of26.9%duringtheforecastperiod(2024-2032).(

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GlobalBatteryEnergyStorageSystemMarketSizeduring2024-2029($Billion)

25.6

CAGR

26.9%

7.8

20242029

10

EnergyStorageTrends2025

AdvantagesofUsingNutraceuticals

Self-Sufficiency—Batteryenergystoragesystemsaren'tsimplyappealingtorenewableenergyproviders.Forward-thinkingenterprisesarealsoadoptingthem.Energypurchasedduringoff-peakhourscanbestoredusingbatterystoragesystems.Thesesystemscanbeactivatedtodistributeelectricitywhentariffsareattheirhighest,loweringenergyexpenses.Batterystoragesystemscanalsobesetuptofunctionasanuninterruptedpowersource,whichisavaluableinsurancepolicyforenterprises.

IntegrationoftheGrid-Renewableenergyisfeddirectlyintothegrid,whichisavailabletocustomers.However,griddemandswings,withhighsandlows.Batterystoragesystemsnowprovideaviable,cost-effectivesolutionformedium-sizedrenewableenergyproducerstocapturetheelectricitygenerated.Safetyiscriticalwhenworkingwithelectricity,soexpertsinstallandsetuptheimport/exportcontrollerandconvertertoensuresafefunctioningandoverloadprotection.

FrequencyControl—Batterystoragesystemscancontrolgridfrequency,ensuringitiswithintheneededrange.Ifthegeneratedpowerdoesn'tmatchtheelectricityconsumption,thefrequencycangoaboveorbelowitsnominalvalue.Suchinconsistenciesmaycausetemporarydisconnections,poweroutages,orblackouts.BESScanrespondpromptlytopoweroutages,offeringsub-secondfrequencyresponseandgridstabilization.

ShiftinEnergyTime-Energytime-shiftingispossiblewithbatteryenergystoragesystems.Energyispurchasedcheaplyduringoff-peakintervalsandsoldorconsumedwhenthepricerises.Asaresult,regardlessoftheseasonorelectricaldemand,BESScanequalizeenergypricesandreducerisks.(

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ChallengesofNutraceuticals

InstallingBESSnecessitatesasignificantcapitaloutlay–Duetotheirhighenergydensityandenhancedperformance,batteryenergystoragetechnologiessuchaslithium-ion,flow,andlead-acidbatteriesrequirehigherinstallationinvestments.Lithium-ionbatteriesareexpensivebecausetheyhaveahighenergydensity,alowrateofself-discharge,andneedminimalmaintenance.Furthermore,thehighupfrontinvestmentcostnecessaryforflowbatterymanufacturingmaybeakeyobstacletomarketgrowth.

InstallationofBESSinremotelocations–Batteryenergystoragedevicesaremostlyusedinremotelocations.Thesesystemsarechallengingtodeployinremoteplacesbecausetheyaretoughtoreach.Islandsandoff-griddistantplacesarecommonexamplesofremoteregionsthatconfrontvariousissuesduetofluctuatingproductionandsupplyofpowerfromrenewableenergysources.(

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11

EnergyStorageTrends2025

StartupsWorkingonBatteryEnergyStorage

1.VanadisPower

VanadisPowerisaNetherlands-basedstartupthatoffersacompletelysustainableandcompetitivestoragesolutionthatdirectlyhelpstheenergytransition.

ThroughtheirproductReFlexTM,aVanadiumFlowBattery(VFB)forstationaryenergystorage,thefirmprovidesaone-of-a-kindsolutionforcommercial,industrial,andutility-scaleenergystorage.Itisamodularproductwithscalabilityrangingfrom10kilowattsto100megawatts.ReFlexTMisbasedonpatentedandaward-winningscientificdiscoveriesinVanadiumelectrochemistrythatresultedinanelectrolytewithdoubletheenergydensityandcapacityofpreviousVFBs.Thebatteryalsorepresentsreusability,recycling,andsafety.(

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2.GenistaEnergy

GenistaEnergy,basedintheUnitedKingdom,providescustomizedlithium-ionbatterystoragesolutionstoassistinmanagingtheneedforflexibleenergysources.Thefirmdesigns,manufactures,andinstallsbatterystoragesystemstostoreenergyfromrenewablesourcesrangingfrom30kWtomultiplemegawatts.

Genista'sbatterysystemsareusedinoffices,commercialandindustrialbuildings,refrigeratedwarehouses,andthefarmingandagriculturesectorsandcanbelinkedtocurrentrenewableenergymanagementsystems.(

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12

EnergyStorageTrends2025

3.Fluence

Fluence,headquarteredintheUnitedStates,isasignificantleaderinenergystoragedevicesandservices.Fluence's6thgenerationTechnologyStackmakesiteasierforcustomerstodeploystoragemorequicklyandaffordably.Withfullyintegrateddigitalintelligence,anupgradedoperatingsystem,andfactory-built,highlyflexiblebuildingblocks,theTechStacklaysthegroundworkforbetterenergystoragedevices.FluenceIQ,thecompany'sdigitalintelligenceplatform,enablesstorageandrenewablesoptimizationtoassistcustomersinoptimizingthevalueoftheirassets.(

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Fluence'sGridstackTMproductisagrid-scale,industrial-strengthenergystoragesystembuiltforthemostdemandingmarketapplicationswhileprovidingindustry-leadingreliability,scalability,andsafety.(

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4.VoltStorage

VoltStorage,basedinGermany,developsandmanufactures"NextGenerationBatteries,"whichareresource-saving,cost-effective,andenvironmentallyfriendlybatterystoragesolutionsthatmakerenewablesavailable24/7.(

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VoltStoragedesignsandmanufacturescommercialbatteriesforagricultureandindustryusingecologicalvanadiumredoxflowtechnology.Furthermore,theinternationaldevelopmentteamisinvestigatingthebreakthroughironsalttechnology,whichisidealasalong-durationbatteryforensuringwindandsolarparks'gridscalebaseloadcapabilities.(

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Thestorageofelectricalenergyinavanadium-basedelectrolyteliquidisadistinguishingfeatureofvanadiumredoxflowtechnology.Thisstoragemethodisespeciallyenvironmentallyfriendlysinceitdoesnotrequireanyrareorconflictingrawmaterialsandiscompletelyrecyclable.Theredoxflowbatteryunitisattheheartofanironsaltenergystoragesystem.

VoltStorageismakingavitalcontributiontothedevelopmentofrevolutionarysolutionsforLongDurationBatteriesbydevelopingresource-savingvanadiumredoxflowstoragetechnologyandironsaltstoragetechnology.(

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13

EnergyStorageTrends2025

Trend3:

THERMALENERGYSTORAGE

ThermalEnergyStorageSystems(TES)storethermalenergybyheatingorchillingastoragemediumsothatitcanbeusedforheatingandcoolingpurposesaswellaspowergeneration.TESdevicesareextremelyusefulinconstructionandindustrialprocesses.TESisacollectionoftechnologiesthatusevariousmethodstostoreaccessibleheatenergyininsulatedrepositories.ATESsystemtypicallyconsistsofatankstoragemedium,acompactcoolerorbuilt-uprefrigerationsystem,pipework,pumps,andcontrols.

TheTESsystemcansafelyholdvastamountsofenergy,anditsregularself-lossisminimal(0.05-1%).Thereservoirhasahighenergydensityandspecificenergy(80-500Wh/L,80-250Wh/kg),andthesystemisfinanciallyfeasiblewithalowcapitalcost(3-60$/kWh).Ontheotherhand,thecycleefficiencyofTESsystemsisoftenlow(30-60%).(

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TheglobalThermalEnergyStorageMarketsizewasvaluedataroundUSD5.37billionin2022andisexpectedtorisefromUSD5.88billionin2023toreachavalueofUSD12.10billionby2031,ataCAGRof9.45%overtheforecastperiod(2024–2031).(

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GlobalThermalEnergyStorageMarketSizeduring2023-2031($Billion)

12.10

CAGR

9.45%

5.88

20232031

TheChinesegovernmentannouncedintentionstoconstruct11CSPprojectsincorporatingthermalenergystorageby2024inJanuary2022.Theyaregigawatt-scalehybridrenewableenergyprojectsthatwillbeintroducedwithinthenexttwoyears.(

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EnergyStorageTrends2025

AdvantagesofUsingThermalEnergyStorage

Energyefficiencyimprovement-Increasedenergyefficiencyisoneofthebenefitsprovidedtopowersystemsbythermalenergystorage.Districtheatingsystems,forexample,promoteenergyefficiencybyconservingheatandthenutilizingitasrequired.Asaresult,lessfossilfuelisneeded,andplantemissionsaredecreased,resultinginlowerproductcosts.However,TEScannotdelivertheseadvantagesonitsown.Intelligentcontrolsystemsandinformationandcommunicationtechnologies(ICT)mustbehelpedtocontributetoimprovedenergymanagement.

Boostgeneratingcapacity-Theneedforheating,cooling,orpowerisrarelyconsistent.Thesurplusproductioncapacityavailableduringlow-demandperiodscanbechargedtoaTEStoimproveefficientgenerationcapacityduringhigh-demandperiods.Thisprocedureenablestheinstallationofasmallermanufacturingunit,resultinginahigherloadcapacityfortheunits.

Minimalmaintenancecost-Thermalstoragesystemshavelowermaintenanceexpensessincetheyusesmallerchillers,coolingtowers,andpumpsthanconventionaltechnologies.Whileincreasinghoursofoperationmaysomewhatnegatethesesavings,stopsandstartshaveagreaterimpactonmaintenancethanhoursofoperation.Furthermore,aconventionalsystemoftenoperatesinapartial-loadmodeformostoftheyear,whichisequallydemandingmaintenanceasafull-loadoperation.(

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ChallengesofThermalEnergyStorage

Expensiveinitialsetupcosts-Thermalenergystoragesystemcostsvaryaccordingtoapplication,size,andheatinsulationtechnique.Thermalstoragetechnologiesbasedonphasetransitionmaterialsandthermo-chemicalstoragearetypicallymoreexpensivethanthestoragecapacitytheyoffer.Storagesystemsaccountforabout30%to40%oftotalsystemcosts.Latent-heatstoragesystemsbuiltonPCMsarepredictedtocostbetween?10/kWh-50/kWh($10.7/kWh-53.5/kWh),whilstTCSexpensesareexpectedtobebetween?8/kWh-100/kWh($8.56/kWh-107/kWh).

Boostedcompetitionfrompumpedstorageandbatterystorage-Understandingthebenefitsofbatteryandthermalenergystorageiscriticalforutilitiesandpowerplantmanagers.Batteriesareexcellentforprovidingstandbypowerforlights,elevators,andcomputers,whereasthermalenergystorageisthesimplestapproachforastructuretoreducepeakelectricconsumption.

Themajorityofbatterystorageprojectsdevelopedbysystemoperators(ISOs/RTOs)areforshort-termenergystorageandarenotdesignedtoreplacetheexistinggrid.Themajorityoftheseinstallationsemploylithium-ionbatteries,whichproduceenoughenergytopowerthelocalgridfor4hoursorfewer.(

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EnergyStorageTrends2025

StartupsWorkingonThermalEnergyStorage

1.AntoraEnergy

AntoraEnergy,basedintheUnitedStates,isutilizingzero-carbonheatandelectricitytoelectrifyheavyindustry.AntoraEnergy'sthermalenergystorageabsorbsextrasolarandwindenergyandusesittoheatcarbonblocks,whichglowliketoasterswithin.On-demand,thisthermalenergyisgiventoclientsaselectricityorindustrialprocessheatupto1500°C.Insummary,AntoraEnergyconvertssunlightandwindinto24/7heatandpoweratalowercostthanfossilfuels.(

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2.Malta

Malta,basedintheUnitedStates,hascreatedathermalenergystoragesystemthatcangatherandstoreenergyfromanysource(wind,solar,etc.),inanyplace,andforlengthyperiodsoftime,andthendispatchitaselectricityondemandfor8hoursto8+days.(

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Malta'stechnologyisbasedonwell-establishedthermodynamicprinciples,storingenergyasheat(inmoltensalt)andcold(inachilledliquid).Malta'suniquethermo-electricenergystoragesystemisaflexible,low-cost,andadaptableutility-scalesolutionforstoringenergyathighefficiencyoverlongperiodsoftime.

Thesystemismadeupofstandardcomponentsandabundantrawmaterialssuchassteel,air,salt,andcommodityliquids.(

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EnergyStorageTrends2025

3.MGAThermal

BasedinAustralia,MGAThermalprovidesthermalenergystoragesolutionsusingthecompany'scoretechnology,MiscibilityGapAlloys(MGA),arecentlyinventedformofthermalstoragematerial.MGABlocksareusedinThermalEnergyStorageSystems(TESS),whichprovidecontinuoushigh-temperatureheatorpowerthatissafe,low-cost,long-lasting,andhighincapacity.Thesolid-liquidphasechangeintheblocksstoressignificantthermalenergyreleasedastheycoolandtheparticlessolidify.(

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4.Inulox

StashEnergyisaCanadiancompanythatdevelopsenergystorageanddemandresponsesolutionsforhomesandbusinesses.Thecompany'scoreproductistheStashEnergyMini-SplitHeatPump.Duringtheheatingseason,theEnergyHeatPumpdrawsheatfromtheoutsideairandrejectsheatoutdoorsduringthecoolingseason.

Theproductalsoallowshomeownerstostoreenergyduringoff-peakhoursforusageduringpeakhourswhenelectricityismoreexpensivetoprovidefortheutility.(

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EnergyStorageTrends2025

Trend4:

DISTRIBUTEDENERGYSTORAGESYSTEM

ADistributedEnergyStorage(DES)Systemisapre-packagedsolutionforstoringenergyforlaterconsumption.ThetwoessentialpartsofthesystemaretheDC-chargedbatteriesandthebi-directionalinverter.Thisequipmentishousedinashipping-friendlychassisthatcanendureharshconditions.Distributedenergystoragesystemsutilizelithium-ionbatteriesandadvancedtechnologiestocollectanddischargeexcesspowerquickly,providinguserswithavarietyofbenefits.(

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ThevaluationofthegloballydistributedenergystoragesystemmarketreachedUS$4.2billionin2022andisexpectedtoincreaserapidlyataCAGRof9.6percenttoreachUS$10.6billionby2032.

TheInternationalEnergyAgency(IEA)estimatedthattheannualexpenditureneededtofulfillglobalenergydemandwouldreach$1.9trillionin2021.Distributedenergystoragesystemsassistintheconservationofexcessenergygeneratedforuseduringpoweroutages.In2021,accordingtotheIEA,China'sinvestmentsinrenewableenergyproductionwereapproximately30%ofglobalinvestments.(

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GlobalDistributedEnergyStorageSystemMarketSizeduring2022-2032($Billion)

10.6

CAGR

9.6%

4.2

20222032

20

EnergyStorageTrends2025

AdvantagesofUsingDESS

Significantenvironmentalbenefit—Distributedenergystorageisanimportantcomponentofmodernizingtheenergysystemasawholebyofferingsmartgridsandrelatedservices.Ifitisusedtoincreaserelianceonrenewables,itwillhavesignificantclimateadvantages.Electricvehiclesutilizedasdistributedenergystoragecanhaveabigimpactontheenvironment.

System-levelcapacity-DESSsaddvaluetothesystembydeferringoravoidinginvestmentingenerationandtransmissionassets.DESSs'systemcapacityvalueisdeterminedbytheirutilizationcapacityduringpeakloadtimes.WhenDESSsareutilizedtoenhancesupplyorreduceconsumptiononthegridinplaceofcentralgeneratorsthatwouldnormallybeemployedintheeventofacontingency,suchasaforcedoutage,theyprovideoperatingreservevalue.(

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ChallengesofDESS

Expensivesetupandbatterycosts—Theupfrontcostofdistributedenergystoragesystemsissignificant,andtheongoingmaintenancecostsareevenhigher.Risingpricingofnumerouskeymineralsusedinbatterymanufacture,supplychaindisruptionscausedbytheRussia-Ukraineconflict,andCOVID-19lockdownsinsomeregionsofChinahaveallactedasbarrierstothemarket'sexpansion.

Thermalexhaustionandexpensivecapitalinvestment-EventhoughtheDistributedEnergyStorageindustryisquicklyexpanding,thethermalinstabilityissueofbatteriesisimpedingitsexpansion.Internalcellfaults,mechanicalfailuresordamage,orexcessvoltagearetheprimarycausesofthermalrunaway,whichresultsinhightemperatures,gasbuildup,andpotentiallycatastrophicruptureofthebatterycell,endinginfireorexplosion.Asidefromthat,thismarketnecessitatesasubstantialcapitalexpendituretomanufacturesuchasystem.Asaresult,theaforementionedissuewillhindertheexpansionofthismarket.(

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EnergyStorageTrends2025

StartupsofDistributedEnergyStorageSystem

1.MET3R

MET3R,basedinBelgium,assistsbusinesseswithelectriccarfleetsinoptimizingchargingsessions,reducinggridimpact,andmakingtheiroperationsmoresustainable.ThebusinessalsoassistsgridmanagementinbetterunderstandingandcontrollingEVchargingdemands,aswellasmonitoringthestatusofdistributedenergyassets(DERs)onthelow-voltagenetwork.

ZenGrid,anext-generationenergymanagementsolutionthatprovidesgridmanagersandutilitieswitha360-degreeperspectiveofthenetworkandconnectedmanagedassetsviaasingleinterface,isoneofMET3R'sproducts.(

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2.ChargeNetStations

ChargeNetStations,basedintheUnitedStates,focusesonSaaS,cleantech,electricvehiclesupplyequipment,anddistributedenerg