Soft start fuel cell control strategy

Assignee

• GM GLOBAL TECHNOLOGY OPERATIONS LLC · US

Inventors

• Manish Sinha · Pittsford, US
• Yeh-Hung Lai · Webster, US
• John C. Fagley · Victor, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02T90/40
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

A method of operating an electrochemical conversion assembly is provided. According to the method, an assembly warm-up operation is executed by increasing the temperature TSTACK of the membrane electrode assembly. Next, stoichiometry-based control of the relative humidity (RH) of one of the reactant flowfields is initiated when the temperature TSTACK exceeds a threshold temperature T0. The stoichiometry-based RH control comprises a reduction in the relative humidity from a value RHWET exceeding 100% relative humidity to a value RHDRY less than 100% relative humidity. The relative humidity value RHDRY is sufficiently low to permit reduction of an initial membrane hydration λWET in the membrane electrode assembly. The reduction in the relative humidity to RHDRY is achieved by controlling the stoichiometry of the reactant flowfield and the temperature of the membrane electrode assembly such that the reduction to RHDRY decreases substantially continuously, relative to portions of the RH profile of the reactant flowfield prior to initiation of the stoichiometry-based control. The cell transitions from the stoichiometry-based RH control to generally elevated-temperature, temperature-base…