Development of preheating methodology for a 5 kW HT-PEMFC system

Compared to the low-temperature proton exchange membrane fuel cell (LT-PEMFC) system, the high-temperature proton exchange membrane fuel cell (HT-PEMFC) system has a simple balance of plant (BOP) configuration and high heat recovery efficiency. However, to commercialize this system, the start-up time should be shortened. This study aims to develop a preheating methodology for the 5 kW HT-PEMFC system, which is the target system. The entire start-up time of this system is dominated by the warm-up time of the stack among various other system components. An advanced preheating method was experimentally verified by combining three heating methods of the stack: coolant heating, reaction heating, and air heating. Additionally, considering the power consumption of the target system, a method to reduce the warm-up time was proposed. Ultimately, we found that the combined coolant and reaction heating method was the best. Furthermore, a case study revealed that using an oil heater with variable heating capacity on the target system can reduce the start-up time by 23% compared to a fixed capacity heater. (c) 2021 Published by Elsevier Ltd on behalf of Hydrogen Energy Publications LLC.

Automated summary

The study aims to develop a preheating methodology for a 5 kW HT-PEMFC system, focusing on reducing the warm-up time dominated by the stack warm-up time. By combining coolant heating, reaction heating, and air heating methods, it was found that the coolant and reaction heating method was the most effective in reducing start-up time. Additionally, using an oil heater with variable heating capacity on the target system could reduce start-up time by 23% compared to a fixed capacity heater.