	US 12,412,915 B2
	Operating method for a solid oxide cell system
Oliver Borm, Dresden (DE); and Oliver Posdziech, Dresden (DE)
Assigned to Sunfire GmbH, Dresden (DE)
Appl. No. 17/920,469
Filed by SUNFIRE GmbH, Dresden (DE)
PCT Filed Apr. 22, 2021, PCT No. PCT/EP2021/060523 § 371(c)(1), (2) Date Oct. 21, 2022, PCT Pub. No. WO2021/214214, PCT Pub. Date Oct. 28, 2021.
Claims priority of application No. 20020194 (EP), filed on Apr. 23, 2020.
Prior Publication US 2023/0155150 A1, May 18, 2023
Int. Cl. H01M 8/0637 (2016.01); C01B 3/34 (2006.01); C25B 1/04 (2021.01); C25B 15/08 (2006.01); H01M 8/04007 (2016.01); H01M 8/04537 (2016.01); H01M 8/04746 (2016.01); H01M 8/0612 (2016.01); H01M 8/12 (2016.01)

CPC H01M 8/0637 (2013.01) [C01B 3/34 (2013.01); C25B 15/08 (2013.01); H01M 8/04074 (2013.01); H01M 8/04589 (2013.01); H01M 8/04753 (2013.01); H01M 8/0625 (2013.01); C01B 2203/0233 (2013.01); C01B 2203/0238 (2013.01); C01B 2203/067 (2013.01); C01B 2203/0838 (2013.01); C01B 2203/1235 (2013.01); C25B 1/04 (2013.01); H01M 2008/1293 (2013.01)]

6 Claims

1. A method of operating a solid oxide cell system that is configured to produce at least one of: (i) carbon dioxide CO₂; (ii) hydrogen H₂; and (iii) synthesis gas CO+H₂from an electrochemical conversion of one of: (i) water steam H₂O (g); and (ii) a mixture comprising water steam H₂O (g) and carbon dioxide CO₂, the method comprising:

admixing a quantity of at least one other substance into the one of: (i) the water steam H₂O (g); and (ii) the mixture comprising water steam H₂O (g) and carbon dioxide CO₂for conversion into synthesis gas CO+H₂, wherein the at least one other substance is selected from the group consisting of natural gas, methane CH₄or another hydrocarbon, wherein an endothermic reforming of the admixed hydrocarbons takes place by coupling in waste heat from the electrochemical conversion and the quantity of the at least one other substance in order to compensate for effects of a degradation of the solid oxide cells of the solid oxide cell system;

producing a quantity of hydrogen H₂;

determining at least one of: (i) a total quantity of hydrogen produced by the system; and (ii) a quantity of the synthesis gas produced by the system; and

structuring a control device to,

receive measurement signals from a mass flow controller,

transmit signals from the control device to the mass flow controller to control an electrolysis process based on at least one of: (i) the determined total quantity of hydrogen produced by the system; and (ii) the determined quantity of synthesis gas CO+H₂produced by the system; and

regulating addition of the quantity of hydrogen H₂to the system such that the total quantity of hydrogen H₂generated by the solid oxide cell system is kept constant over a time with respect to an operation under a nominal load.