Method and apparatus for thermal, mechanical, and electrical optimization of a solid-oxide fuel cell stack

Assignee

• Delphi Technologies · US

Inventors

• John MacBain · Carmel, US
• Sean M. Kelly · Williamsville, US
• Christopher M. Mergler · West Henrietta, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02E60/50
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

A solid-oxide fuel cell stack assembly comprising a plurality of sub-stacks, preferably two sub-stacks each containing one-half the total number of fuel cells. Cathode air and fuel gas are passed through the first sub-stack, wherein they are partially reacted and also heated. The exhaust cathode air and the exhaust fuel gas from the first sub-stack are directed to the respective inlets of the second sub-stack, becoming the supply cathode air and fuel gas therefor. A first heat exchanger in the flow paths between the sub-stacks and a second heat exchanger ahead of the sub-stacks can help to balance the performance of the two stacks. The result of dividing the number of cells into a plurality of sub-stacks, wherein the exhaust of one sub-stack becomes the supply for the next sub-stack, is that fuel efficiency and utilization are improved, thermal stresses are reduced, and electrical power generation is increased.