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Cumminswillbetheleadingproviderofelectrifiedpowerinourcommercialandindustrialmarketsjustaswearetheleaderindieselandnaturalgaspoweredproducts.

爱博网站|首页Cumminswillprovidetheentireelectrifiedpowersolution,aswellassomeofthemostcriticalcomponentsthathavethelargestimpactonperformance,qualityandpowerofthesystemtodeliverthemostvaluetoourcustomers.OurBatteryElectricVehicle(BEV)systemlaunchesin2019forbus,andourRangeExtendedElectricVehicle(REEV)systemlaunchesin2020forbus.Additionalofferingsforvariousotherapplicationsaresoontofollow.

Cumminsisinvestingintwoprimarytypesoffuelcells,ProtonExchangeMembrane(PEM)andSolidOxideFuelCells(SOFC),aswellashydrogenproductiontechnologiesinordertoprovideaseamlessstart-to-finishsolutiontocustomers.

Cumminswillbetheleadingproviderofelectrifiedpowerinourcommercialandindustrialmarketsjustaswearetheleaderindieselandnaturalgaspoweredproducts.

Cumminswillprovidetheentireelectrifiedpowersolution,aswellassomeofthemostcriticalcomponentsthathavethelargestimpactonperformance,qualityandpowerofthesystemtodeliverthemostvaluetoourcustomers.OurBatteryElectricVehicle(BEV)systemlaunchesin2019forbus,andourRangeExtendedElectricVehicle(REEV)systemlaunchesin2020forbus.Additionalofferingsforvariousotherapplicationsaresoontofollow.

Cumminsisinvestingintwoprimarytypesoffuelcells,ProtonExchangeMembrane(PEM)andSolidOxideFuelCells(SOFC),aswellashydrogenproductiontechnologiesinordertoprovideaseamlessstart-to-finishsolutiontocustomers.

Over50tons.Thisistheamountofgoodstransportedannually,perpersonintheU.S.Thisshouldn’tbesurprisinggiventhedeviceyouarereadingthisarticleonislikelymadefromseveraldifferentmineralsandmultiplesub-components.Thesegetminedormanufacturedatdifferentlocationsthentransportedtovariouslocationsin-between,beforegettingshippedtoyou. 

Thetransportationsectorisoneofthepillarsofourmodernworld,andrailisacriticalcomponentofthiseco-system.Thisarticlespotlightsafewtrendsimpactingthefutureoftherailindustrytohelpyourorganizationsucceedandkeepyourperspectiveofthefuturefreshwiththeseinsights.Let’slookatthesethreetrendsinfluencingtherailindustrythisdecade.

Itmaybedifficulttoimaginethatonlyathirdofworld’spopulationlivedinurbanareasjustafewdecadesago.Incomparison,morethanhalfofworld’spopulationliveinurbanareastoday. 

Therearegoodunderlyingreasonsforurbanization:peoplemovetourbanareastoprosper,findbetterjobs,andtogetaccesstoeducationandhealthservices.Meanwhile,urbanizationalsohasitsdamagingside-effects;weliveinurbanareaswheresomefacewaterandairqualityissues,povertyandlimitedhousing.Whenitcomestotransportation,congestionandtheenvironmentalimpactarecommonlycalledoutastwosideeffectsofurbanization. 

Onthebrightside,emergingtechnologiesintheenergysectorcombinedwithadvancementsinconnectivityhelpuscreatemoreefficienttransportationsolutions.Theseincludeelectricbuses,autonomouscarsandofcourse,moderntrains.  

Moderntrainsfeatureinnovationssuchastheuseofrenewablefuels,sensorsandIoTdevices.Theseenableautonomousoperation,increasedsafetyandareducedcarbonfootprint.Moreover,railtransportationcontinuestoofferthehighestcapacityperhourtoservepeople’stravelneedsinatransitwaysetting1.

Goingforward,urbanizationisexpectedtoincreasethedemandforrailtransportationwithinandacrossurbanareas.

2018wasthefirstyear50percentoftheworld’spopulationhadenoughdiscretionaryspendingtobeconsidered“middleclass”or“rich,”accordingtoTheBrookingsInstitution2. 

Therearetwosidesofthisstory.Ononeside,themiddleclassisunderpressurewithweakeningjobsecurityandstagnatingincomelevels.Moreover,theon-goingCOVID-19pandemicputsincreasingstrainonoureconomies.Ontheotherside,agrowingmiddleclassmeansincreasingthenumberofpeoplewithhigherpurchasingpower.Thisresultsinincreasingtradeactivityandtrafficofgoods. 

Thinkofhowfrequentlyyoureplaceyourelectronicdevicesandtheextensivesupplychainbehindthesesimplepurchases.Mineralstobetransportedtomillstoproducemetals.Thenthesemetalsgettransportedtofactoriestoproducegoods.Thesegoodsgettransportedtowarehouses,thentoconsumers.Trainshavelongbeenacriticalcomponentofthetransportationeco-systemthatfacilitatesthisfreightmovement. 

Seventy-fivepercentoftherespondentstoaPEWResearchCentersurveywereparticularlyconcernedabouthelpingtheenvironment3. Thetransportationsectorgetsthespotlightwhenitcomestohelpingtheenvironmentbyreducinggreenhousegas(GHG)emissions.Thisispartiallybecausethesectorproduces15percentofman-madeGHGemissionsglobally,andissecondonlytotheelectricityandheatsector4.

Therailindustryisalsoreducingitsalreadylowenvironmentalfootprint.Trainspoweredbyelectricitysuppliedthroughoverheadpowerlineshavebeeninuseforalongtime.Nowadays,someofthesetrainsproducezerocarbonemissionswhentheelectricityusedisproducedbyrenewablesources.Thereisalsogrowinginterestinpoweringtrainswithhybridsolutionsfeaturinghydrogenfuelcells.Infact,CoradiaiLint,launchedinFrance,isoneofthefirstpassengertrainspoweredsolelybyhydrogenfuelcellsandproduceszeroemissionsatthepointofuse. 

Itisanexcitingtimetobeintherailindustrywherethemacrodriverssuchasanexpandingmiddleclassandurbanizationincreasethedemandfortheindustry’sservices.Moreover,societalchangescoupledwithemergingtechnologiesinenergyandconnectivitycreatetheroomfortheindustrytotransformitselfintoahigh-techsector. 

AytekYukselistheContentMarketingLeaderforCumminsInc.,withafocusonPowerSystemsmarkets.AytekjoinedtheCompanyin2008.Sincethen,hehasworkedinseveralmarketingrolesandnowbringsyouthelearningsfromourkeymarketsrangingfromindustrialtoresidentialmarkets.AyteklivesinMinneapolis,Minnesotawithhiswifeandtwokids.

WhentheArkansasVeteransAdministration(VA)contactedCumminsdealer,NorthsidePower,aboutprovidingageneratortoalocalWWIIVeteran–NorthsidePowerdidn’thesitate.

“Wefeelthisisoneofthesimplestthingswecandotohonorsomeonewhogavetheirtimeinservicetoourcountryduringsuchatryingtimeinhistory,”saidGregNalley,OwnerofNorthsidePower. 

JamesJosephTorres(Jim),93,wasbornonMay23,1926inPineBluff,Arkansas.Shortlyaftergraduatinghighschool,TorreswasdraftedintotheUnitedStatesNavyattheageof18.“Iwas1of700peopledraftedthatday,”recallsTorres,“Theyjusttoldmeyou’regoingtotheNavy.”TorreswassoonsenttoSanDiego,Californiafornavaltrainingwherehewastrainedasafireman.Duringhisthree-yearenlistment,hewouldspendmostofhistimeontheU.S.SMassachusettssailingtodifferentportsallovertheworldincludingthePhilippines,Hawaii,andthePanamaCanal. 

AfterthreeyearsintheNavy,TorrestransferredbranchesandenlistedintheFourthArmywhereheservedasaCorporalinthe1040SquadronatFortSamHoustoninSanAntonio,Texas.ThereTorressetupaM.A.S.HmedicalunitusedtotrainmedicsandnursesthatwerebeingsenttotheKoreanWar.WhileworkingattheBrookeGeneralHospitalatFortSamHouston,TorresmanagedtocatchaglimpseofthefamousGeneralDouglasMacArthur.“Hewaswalkingthroughthehospitalsmokinghispipe,”remembersTorres. 

AftersixyearsintheArmy,TorresenlistedintheUnitedStatesAirForce,wherehetrainedtobecomeacrewchiefontheB-52bomber.“Iscoredthehighestoutofallthecandidatesonthetestthatday,”saidTorres.HewassubsequentlystationedinShreveport,LouisianaatBarksdaleAirForceBaseandretiredin1966withtherankofMasterSergeant/E8.

CumminscontinuestobeastrongsupporteroftheUSArmedforces.Supportingveteransalignswiththecompany’scorevaluesandbeliefs.Throughtheyears,thecompanyhasprovidedpowersolutionstoourtroopsinthefield,aswellas,mobilepowersolutionsformilitaryvehicles.

AfterlearningthatMr.TorreswasinfailinghealthanddidnotqualifyforadditionalservicesthroughtheVeteransAdministration,NorthsidePowerandCumminsfeltcompelledtohelp.UsingfundsfromtheCumminsCo-OpPolicyprogram,NorthsidePowerwasabletoinstalltheCumminsQuietConnectSeriesgeneratoratnocosttoMr.Torres. 

JillWeilerisaMarketingandCommunicationsSeniorSpecialistfortheDBU.Shejoinedthecompanyin2012,andhasservedinavarietyofrolesincludingVisualCommunicationsasanassociateproducerandprojectmanager.PriortojoiningCummins,JillservedintheUnitedStatesArmyfor4years.

Healthcareservices,waterplants,datacenters,greenhouses,foodmanufacturingandtextilefacilitiesproducingpersonalprotectiveequipment(PPE),allplayakeyroleinovercomingthecurrentpandemic.Theseindustriesalsohaveanotherthingincommon;uninterruptedaccesstoelectricityiscriticalforthecontinuityoftheiroperations. 

Fortunately,resiliencyandflexibilityinourelectricityinfrastructureisexpectedtopreventanylarge-scaleblackouts.Moreover,thesefacilitiesarealsocommonlyequippedwithon-siteback-uppowergenerationsystems.Thesesystemskeepthesecriticalfacilitiesrunningiftheutilitypowergoesout. 

Thisarticleoutlinesfivepracticalmaintenancetipsforyourbusiness’back-uppowersystem.Thesetipsaimtoaddresspreventableandinspectableissues,andarecomplementarytoyourscheduledandunscheduledmaintenanceprocedures,notsubstitutestoyourexistingprocedures. 

Regularexercisinghelpswithreliableenginestarting.Itkeepsenginepartslubricated,preventsoxidationofelectricalcontactsandusesupfuelbeforeitdeteriorates.Exerciseyourgeneratorsetatleastonceamonthforaminimumof30minutesloadedtonolessthanone-thirdofthenameplaterating.Tryavoidingperiodsofno-loadoperation,sinceunburnedfueltendstoaccumulateintheexhaustsystem.Onetestingoptionistosimulateapoweroutagebyconductingthetestwithyourfacility’sload.Alternatively,youcanusealoadbankduringtestingifconnectingtothefacilityloadisnotconvenientfortestpurposes. 

Startbycheckingthemainanddaytankfuellevelstoensureyouhaveenoughfueltooperateasneeded.Continueyourvisualinspectionbycheckingforanyleaks,cracksorlooseconnections.Tightentheclampsasnecessary.Inspectthedaytankfloatswitch;itensuresthedaytankisgettingfilledfromthemainfueltank,asthefuellevelwithinthedaytankdrops.Drainanywaterorsedimentsfromthefuelsystemifnecessary.Dieselfuel,whenstored,isatriskofcontamination.Exercisingthegeneratorsetregularlyisonewaytoaddressthecontaminationrisk,sincethefuelgetsusedthroughthisplannedexercise.NFPA110recommendstestingfuelqualityatleastannuallytoensurestoredfuelhasnotdegradedsignificantlyandtoidentifytreatmentopportunities.Ifthereisneed,youcanconsiderfuelpolishingandtankcleaning. 

Weakorunderchargedstartingbatteriesarethemostcommoncauseofstandbypowersystemfailures.Beginwithavisualinspectionofstartingbatteries.Theconnectionsattheterminalsneedtobetightandcleanofanycorrosion.Youcancleanthebatteriesbywipingthemwithadampcloth.Corrosionattheterminalscanbecleanedwithasolutionofbakingsodaandwater.Finishupbycheckingtheelectrolytelevelandspecificgravity.Fillthebatterycellswithdistilledwaterifelectrolytelevelsarelow.Ifthespecificgravityreadingisbelow1.215,chargethebattery.Youcanalsocheckwhetherthebatterieshaverecentlybeenreplaced;batteriesshouldbereplacedeverythreeyears.

Transferswitchequipmentgenerallyrequireslimitedmaintenance,comparedtopowergenerators.Startbyverifyingallindicationlampsarefunctional,andthecontrolswitchesareintheproper(AUTOMATIC)position.Checkcircuitbreakersandfusestoensuretheyarefreeofdirtorcorrosion.IfyourfacilityisrequiredtobeNFPA110compliant,testthetransferswitchesatleastonceamonth. 

Asimpledailywalkaroundyourback-uppowersystemcouldhelpyouidentifypreventableissuesbeforetheyleadintolossoflife,personalinjury,propertydamageorlossofbusinessincome.Conductadailyvisualinspectionincluding,butnotlimitedto:

Pleaseensuretofollowthescheduleintheoperator’smanualforroutineperiodicengineandgeneratormaintenanceinadditiontothesepracticaltips.Manyofthetipsinthisarticleareadaptedfromthefollowingresourcesthatyoucancheckforfurtherdetails.

Growprofessionallywithenergytrendsandinsightsdeliveredtoyourinbox.ReadaboutenergytechnologiesandtrendsonourEnergyIQHub.

AytekYukselistheContentMarketingLeaderforCumminsInc.,withafocusonPowerSystemsmarkets.AytekjoinedtheCompanyin2008.Sincethen,hehasworkedinseveralmarketingrolesandnowbringsyouthelearningsfromourkeymarketsrangingfromindustrialtoresidentialmarkets.AyteklivesinMinneapolis,Minnesotawithhiswifeandtwokids.

Youhavequestionsaboutenergy,wehaveanswers.InourlatestEnergyIQarticle,wetakeastabatdefining20energy-relatedterms in50wordsorless. 

Energyisthecornerstoneofourlives.Weoftenusesixdifferentformsofenergywithinthefirsthourofourday.Washingyourfacerequireselectricenergytobeconvertedtokineticenergywithinthewaterpump.Usingthestovetocookbreakfastconvertsthechemicalenergywithinnaturalgastoheat(thermalenergy).TurningontheTVconvertselectricenergytolightandsound,twomoreformsofenergy.

InourlatestEnergyIQarticle,we'veattemptedtodescribe 20 commonenergyterms in 50wordsorless.Youmightbeawareofsomeofthese,yetsomemightberelativelynewforyou. 

Let’sstartwiththebasics.Herearethreekeywords thatareusedquitefrequently:Energy,electricityandpower. 

Energyisthecapacityofdoingwork.Energycan’tbecreatedordestroyed,butonlyconvertedfromoneformtoanother,accordingtothefirstlawofthermodynamics.Therearenineformsofenergy,andweconvertenergybetweentheseformstogettheneededworkdone.

Poweristhetimerateofperformingthework.Asyouapplypower(watts)overtime(hours),energyisconsumed(watt-hours).Manydevicesgeneratepower;adieselelectricgeneratorproducespowerbyconvertingchemicalenergytoelectricity,andasolarpanelproducespowerbyconvertingtheenergyofsunlightintoelectricity.

Electricityissimplyoneofthemanyformsofenergyandiscreatedbythemovementofelectrons.Theeaseofdistributionandtheabilitytouseitsafelymakeselectricityapopularformofenergyinourlives.

Thesimpleexperimentoutlinedinthisarticlewillhelpyouneverforgetthedifferencebetweenpowerandenergy,anddetailsthedifferencesbetweenenergy,electricityandpower.

Manytechnologiesandcomponentsworktogethertobringustheenergy,powerandelectricityweneed.Let’sstartwiththesystemlevelterminologybeforecoveringindividualcomponents.

Distributedgenerationisaninterconnectedecosystemofsmallerpowergenerationsystemsatorclosetothepointofconsumption.Thisproximityreducesthecost,complexityandinefficiencyassociatedwithelectricitydistribution.Distributedgenerationalsooffersthebenefitofreducedemissionsthroughtheintegrationofrenewablesourceswithexistingenergyassets. 

Amicrogridisalocalenergysystemcapableofproducing,(potentiallystoring)anddistributingenergytothefacilitieswithinthenetwork.Microgridscanincludeseveraldifferentassets,alsocalleddistributedenergyresources(DERs).Youcanreadhowmicrogridswork,whyweneedmicrogridsandtheiradvantagesinthisarticle. 

Distributedenergyresources(DERs)areelectricity-producingresourcesconnectedtothelocalelectricdistributionsystem.Solarphotovoltaics(PV),powergenerators,fuelcellsandstationaryenergystoragesystemsaresomeofDERexamples.Youcanreadmoreaboutthreecommonusecasesanddeploymentsofdistributedenergyresourcesinthisarticle. 

Smartgridreferstomodernelectricgridswhereamixoftechnologiesthatenabletwo-waycommunicationbetweentheutilityanditscustomers.Controls,computingequipmentandotherdigitaltechnologiesworktogetherascomponentsofthesmartgridtoincreasethereliabilityandefficiencyoftheelectricgrid. 

Inelectricitygeneration,apowergeneratoristhedevicethatconvertsmechanical,chemical,solarorotherformsofenergytoelectricity.Theelectricitythencanbeusedtopowerbuildings,facilities,homesormobileapplicationssuchasrecreationalvehicles. 

Fuelcellsareenergyconverters;theyconvertenergyfromoneformtoanother.Morespecifically,fuelcellsconvertthechemicalenergystoredinthefueltoelectricandthermalenergy(heat),withouttheneedforcombustion.Youcanreadmoreaboutfuelcellbasicsinthisarticle. 

Asolidoxidefuelcellisatypeoffuelcell;itproduceselectricity,water,heatandsmallamountsofcarbondioxide.SOFCscanoperateathightemperatures,sothesystemcancopewithhydrogenreformerandusenaturalgasasthefuel.Youcanreadhowsolidoxidefuelcellsworkandtheiradvantagesinthisarticle.

Stationaryenergystoragesystemsstoreenergyandreleaseitintheformofelectricitywhenneeded.Anenergystoragesystemusuallyincludesbatteries,acontrolsystem,inverterandthermalmanagementsysteminanenclosure.Youcanreadhowenergystoragesystemsworkandadvantagesofenergystoragesystemsinthisarticle. 

Automatictransferswitches(ATS)switchelectricalloadsbetweenavailablepowersources.Mostoften,ATSareusedtotransfertheelectricalloadfromtheutilitysourcetoaback-uppowergeneratorduringautilitypoweroutage.ATSreconnecttheloadtoutilitypowerwhentheutilitypowerisrestored.

Often,electricitygenerationissimultaneouswiththegenerationofotherformsofenergy.Thissimultaneousoperationreduceswastedenergyandincreasesenergyefficiency.Let’scovertheterminologyassociatedwiththeseenergyefficientapplications. 

Cogenerationisthesimultaneousproductionofmultipleformsofenergyfromasinglefuelsource.Thermal(heat)andelectrical(electricity)energyareusuallythetwoformsofenergyproducedinmanytypesofcogenerationapplications.Youcanreadmoreabouthowcogenerationworksandtheadvantagesofcogenerationinthisarticle. 

Trigenerationisusuallythesimultaneousproductionofcooling,heatandelectricitythroughasinglefuelsource.Sometrigenerationapplicationsproduceelectricityandrecoverheatwhilesimultaneouslyutilizingthecarbondioxide(CO2)fromtheexhaust.ThisCO2helpswithphotosynthesisingreenhousesorcarbonationofbeveragesinbottlingfacilities.

Thesparkspreadisametricforestimatingtheprofitabilityofnaturalgas-firedelectricgenerators.Itisthedifferencebetweenthepriceofelectricityandthecostofthenaturalgasneededtoproducethatelectricity1.Asthesparkspreadincreases,savingsprovidedbyacogenerationsystemalsoincreases.

DemandResponseistheactofreducingelectricityusageduringpeakdemandtimestoloweryourcostofelectricity.Generally,customersparticipateinprogramswithutilitiesandagreetoreducedemandwhenneeded.Toreducethedemand,customerscanturnthingsoff,selectivelyuselargeloadsduringoff-peaktimes,orgeneratetheirownelectricityduringpeaks.

Thisislikedemandresponsewithaspecificfocusonreducingdemandcharges(kW)andassociatedcosts.Demandchargemanagementdefinesanoverallplanwhichcanincorporateseveralmethodsofdemandreductionandself-generationwiththegoalofreducingthecostofelectricityassociatedwithdemandcharges(kW).

Youcanreadmoreaboutcustomers'emergingneedsaroundeconomics,includingdemandresponseanddemandchargemanagement,makingdistributedgenerationanimportantcomponentofelectricitymarketsinthisarticle.

Energysourcesthatnaturallyreplenishovertimearecalledrenewableenergysources.Solar,wind,tides,hydropowerandgeothermalheataresomeoftheexamplesforrenewableenergysources.Whiletheavailabilityoftheserenewableenergysourcescouldbeintermittent,theyareconsideredinexhaustibleovertime. 

Dieselfuelisaliquidfuelobtainedthroughdistillationofcrudeoil.Dieselfuelisamixtureofhydrocarbons,aromaticsandparaffinswithhighchemicalenergydensity.Aninternalcombustionenginefueledwithdieselconvertsthischemicalenergytoheatandkineticenergy. 

Naturalgasisafuelthatprimarilyconsistsofmethane(CH4);itiscolorlessandodorlessinitsoriginalform.Naturalgascanbecombustedveryefficientlyandemitslesspollutantsthanmanyfossilfuels.Ithassurpassedoilandnucleartobecomethesecondmostcommonlyusedfuelinelectricitygeneration.

SignupbelowforEnergyIQtoreceiveenergyfocusedinsightsinmarketsrangingfromdatacentersandhealthcarefacilitiestoschoolsandmanufacturingfacilities,andeverythingbeyond.TolearnmoreabouttheenergyandpowergenerationsolutionsCumminsInc.offers,visitourwebpage.

Growprofessionallywithenergytrendsandinsightsdeliveredtoyourinbox.ReadaboutenergytechnologiesandtrendsonourEnergyIQHub.

AytekYukselistheContentMarketingLeaderforCumminsInc.,withafocusonPowerSystemsmarkets.AytekjoinedtheCompanyin2008.Sincethen,hehasworkedinseveralmarketingrolesandnowbringsyouthelearningsfromourkeymarketsrangingfromindustrialtoresidentialmarkets.AyteklivesinMinneapolis,Minnesotawithhiswifeandtwokids.

Yes,thatwasthedatehumansfirstlandedonthemoonasapartoftheApollo11mission.MostofusrememberdetailssuchastheimagesofastronautsontheMoon’ssurface,andNeilArmstrong’sreaction,“That'sonesmallstepfor[a]man,onegiantleapformankind.”Yetmanydon’tknowhowthespacecraftobtaineditselectricalpowerthroughthishistoricalmission.

FuelcellswereNASA’sanswertothischallenge,asApollospacecraftcarriedthreehydrogen-fuelcellstoprovideelectricityforalltheequipment.Eachofthesefuelcellmoduleshad31individualfuelcellsstackedtogether1.

Over50yearslater,fuelcellstodayareusedinavarietyofapplicationsrangingfromvehiclestodatacenters.Let’sfocusonsolidoxidefuelcellsandanswerfourcommonquestionstoboostyourenergyIQ.

Simplyput,allfuelcellsareenergyconverters;theyconvertenergyfromoneformtoanother.Morespecifically,fuelcellsconvertthechemicalenergystoredinthefueltoelectricandthermalenergy(heat),withouttheneedforcombustion.Enginesandpowerplantsalsoconvertenergyfromoneformtoanother,buttheyrelyoncombustion,whichreducestheoverallefficiencyoftheenergyconversion.

Solidoxidefuelcellsareoneofthemanytypesoffuelcellsandproduceelectricity,water,heatandsmallamountsofcarbondioxideusingnaturalgasasthefuel. 

Electricityisthemovementofelectrons,andallelements(hydrogen,oxygenandothers)havevaryingnumbersofelectrons. 

Protonexchangemembrane(PEM)fuelcells,alsoknownashydrogenfuelcells,andsolidoxidefuelcellssharethesamebasicoperatingprinciplesyethavemanydifferences.Herearetwoofthesedifferencesimpactinghowthesetechnologiesarebeingusedtoday. 

Thebenefitsofsolidoxidefuelcellsvary dependingupontheapplicationbuttwobenefitsremainconsistentacrossapplications. 

Microgridsandfuelcellstoenergystoragedevices,ourenergyfutureincludesadiversesetoftechnologiesandfuels,andCumminsiscommittedtoinnovatinganddeliveringavarietyofpowersolutionstomeetthesediverseneedsofcustomers. 

SignupbelowforEnergyIQtoperiodicallyreceiverelevantinsightsandtrendsaboutenergymarkets.TolearnmoreaboutdistributedgenerationsolutionsCumminsoffers,visitourwebpage.

Growprofessionallywithenergytrendsandinsightsdeliveredtoyourinbox.ReadaboutenergytechnologiesandtrendsonourEnergyIQHub.

AytekYukselistheContentMarketingLeaderforCumminsInc.,withafocusonPowerSystemsmarkets.AytekjoinedtheCompanyin2008.Sincethen,hehasworkedinseveralmarketingrolesandnowbringsyouthelearningsfromourkeymarketsrangingfromindustrialtoresidentialmarkets.AyteklivesinMinneapolis,Minnesotawithhiswifeandtwokids.