Gas switching reforming for flexible power and hydrogen production to balance variable renewables
Szima, Szabolcs; Nazir, Shareq Mohd; Cloete, Schalk Willem Petrus; Amini, Shahriar; Fogarasi, Szabolcs; Cormos, Ana-Maria; Cormos, Calin-Cristian
Peer reviewed, Journal article
Published version
Åpne
Permanent lenke
https://hdl.handle.net/11250/2652544Utgivelsesdato
2019Metadata
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Originalversjon
Renewable & Sustainable Energy Reviews. 2019, 110 207-219. 10.1016/j.rser.2019.03.061Sammendrag
Variablerenewableenergy(VRE)isexpectedtoplayamajorroleinthedecarbonizationoftheelectricitysector.However, decarbonization via VRE requires a fleet of flexible dispatchable plants with low CO2emissions tosupplycleanpowerduringtimes withlimitedwindandsunlight.Theseplantswillneedtooperateatreducedcapacity factors with frequent ramps in electricity output, posing techno-economic challenges. This studythereforepresentsaneconomicassessmentofanewnear-zeroemissionpowerplantdesignedforthispurpose.The gas switching reforming combined cycle (GSR-CC) plant can produce electricity during times of low VREoutput and hydrogen during times of high VRE output. This product flexibility allows the plant to operatecontinuously, even when high VRE output makes electricity production uneconomical. Although the CO2avoidancecostoftheGSR-CCplant(€61/ton)wassimilartothebenchmarkpost-combustionCO2captureplantunder baseload operation, GSR-CC clearly outperformed the benchmark in a more realistic scenario wherecontinued VRE expansion forces power plants into mid-load operation (45% capacity factor). In this scenario,GSR-CCpromisesa5%-pointhigherannualizedinvestmentreturnthanthepost-combustionbenchmark.GSR-CCthereforeappearstobeapromisingconceptforafuturescenariowithhighVREmarketshareandCO2prices,provided thatalargemarket forcleanhydrogenisestablished