Green Hydrogen Economy

1. OVERVIEW:GreenHydrogenMarketworth$7,314millionby2027growingataCAGRof61.0%. Themobilityindustryaccountedforashareof58%intermsofvalueintheGreenHydrogen Marketin2022andisprojectedtoreachUSD4,550millionby2027ataCAGRof63.4%.The powersectoris projectedtowitnessthesecondhighestCAGRof63.0%,growingfromUSD88.5 millionin2022toUSD1018millionby2027.Duringtheforecastperiod,marketgrowthis anticipatedtobefueledbyelementsincludingdecliningcostsofproducingrenewableenergy fromallsources,developmentofelectrolysistechnologies,andhighdemandfromFCEVsandthe powerindustry.Theglobalmarketforgreenhydrogenisdominatedbywind-poweredgreen hydrogen. Inthe globalgreenhydrogenmarket,theend-usesectorfortransportationaccounted forthelargestmarketshare. DOWNLOADPDÏ:kttps://www.maíkctsa⭲dmaíkcts.com/i⭲dustíQ- píacticc/RcqucstÏoím.asp • IMPACTOFGREENHYDROGEN • Electrolysis:Greenhydrogenisprimarilycreatedthroughelectrolysis.Itinvolves using anelectricalcurrenttodividewater(H2O)intohydrogen(H2)andoxygen(O2).There arevariousformsofelectrolysis,such as • ProtonExchangeMembrane(PEM)Electrolysisusesanelectrolytemade of solidpolymers toseparate hydrogenfromoxygen.Applications onasmaller scale,like hydrogen refuelingstations,areappropriate for it. • AlkalineElectrolysis: usesanelectrolytemadeofsolidpolymerstoseparate hydrogenfromoxygen.Applications onasmallerscale,likehydrogen refueling stations,areappropriateforit. • SolidOxideElectrolysis:operates athightemperaturesandhasalarge-scale hydrogenproductioncapacity. • RenewableEnergySources:Renewable energysources,likewind,solar, orhydropower, areusedtogeneratetheelectricityrequiredfortheelectrolysisprocessthatcreates • greenhydrogen.Thesesourcesareregardedas"green"becausetheydon'tdirectlyemit greenhousegases. • HydrogenStorage:Intanksorasaliquid,hydrogengasistypicallystoredand • transportedunderintensepressure.Akeycomponentofgreenhydrogentechnology is thecreationofeffectiveandsecurestoragetechniques. • FuelCells:Fuelcellsaremachinerythatelectrochemicallytransformhydrogen into electricity.Theyareemployedinnumerousprocesses,suchasstationarypower • generation,stationarybackuppowersystems,andvehiclepower.Thehydrogen economyrelies heavilyonfuelcelltechnology. • HydrogenTransportation:Hydrogen fuelcellvehicles(HFCVs),amongotherforms of • transportation,canusegreenhydrogen.Thesevehiclesemitonlywatervaporasexhaust andusehydrogen togenerate electricitytorunelectric motors. • HydrogenRefuelingStations:The widespread adoption of hydrogen-based • transportationdependsonthe availability ofinfrastructure for hydrogenvehicle

2. refueling.Vehicles aresafely andeffectivelysuppliedwithhigh-pressurehydrogengasat hydrogenrefuelingstations. • Hydrogen ProductionfromBiomass: A procedure knownas biomass gasificationcan alsobeusedtoproducehydrogen frombiomassfeedstocks.Thistechnologymakesit possibletocreategreenhydrogenfromorganicmaterials,furtheradvancing sustainabilityobjectives. • However, therearealsosomechallengesingreenhydrogeneconomy associatedwith the adoptionofgreenhydrogen, including: • Cost:Duetothecostsofrenewableenergysourcesandelectrolysisequipment, producinggreenhydrogencurrentlycostsmorethanproducinggrayhydrogen from fossilfuels.Asignificantchallengeisloweringthepriceofgreenhydrogentomakeit affordable. • EnergyEfficiency:Electrolysis,themethodusedtocreategreenhydrogen,isnot particularlyenergyefficient. Hydrogen productionisless efficientthanotherenergy storagemethodsbecauseasignificantamountofenergyislostduringtheprocess. • Infrastructure: It isextremely difficulttoset upa hydrogeninfrastructure thatincludes facilitiesforproduction,transportation,andstorage.Itwilltakealotofworktocreatea hydrogen distributionnetworkthatis comparable tothenaturalgasinfrastructure that alreadyexists. • ScalingUp RenewableEnergy:Asignificant expansionofrenewableenergycapacityis required toproducesizableamountsofgreenhydrogen. Inordertodothis,problems withintermittentrenewableenergy,energystorage,andlandusemustbeaddressed. • MarketDevelopment:Itisextremelydifficulttocreatemarketsforgreenhydrogenin sectorsoftheeconomythathavehistoricallyreliedonfossilfuels.Itcanbechallenging • topersuadeindustriestoswitchtogreenhydrogen,particularlywhendoingsorequires infrastructureinvestments. • TechnologicalDevelopments inGreenHydrogenProduction • Technological developmentsingreenhydrogenproduction arerapidlyevolving, drivenby increasingdemandforcleanenergyandagrowing understandingofthepotential of green hydrogen. Herearesomeoftherecenttechnologicaldevelopments ingreen hydrogen production: • ElectrolysisEfficiency:Waterissplitintohydrogenandoxygenthroughaprocesscalled electrolysis.Protonexchangemembrane(PEM)electrolysisandsolidoxideelectrolysis cellsareexamplesofelectrolysis technologyadvancementsthathaveincreased energy efficiency,decreasedcapitalcosts,andincreasedtheoperationallifeofelectrolyzers. • Renewable Energy Integration:The integrationof renewable energysources,suchas windandsolarpower, withelectrolysissystems hasbecomemoreefficient andcost- effective.Electrolyzers cannowadapttotheintermittent natureof renewables, allowing foramorereliableandcontinuoushydrogenproductionprocess.

3. HydrogenStorage:Itisnowmore practicaltostoreandtransporthydrogenthanksto advancementsintechnologiesforsafeand effectivehydrogen storage,suchas metal hydrides and carbon-basedmaterials. • CarbonCaptureandUtilization:Carboncaptureandutilization(CCU)technologiesare usedinsome environmentallyfriendlyhydrogenproduction processes,makingit possibletoproducehydrogenwithzerocarbonemissions. • GreenHydrogen ProductionatScale:Larger-scalegreen hydrogenproductionprojects arecurrentlybeingdeveloped,whichwillfurtherreducecostsandshowthegreen • hydrogen'scommercialviability. • ReadMore:https://www.marketsandmarkets.com/industry-practice/hydrogen/green-hydrogen • Leadingplayers inGreenHydrogenEconomy • Strengthsand limitationsofgreenhydrogen • Green hydrogentechnologies • Hydrogenascleanenergy • Greenhydrogenenergysolutions