• A fuel cell low-temperature shutdown purging model that does not rely on stack impedance was developed, with a maximum impedance error of 4.5% • After 30 times of fuel cell system cold start verification at -30°C on the test bench, the stack voltage decay was 1.3% • The vehicle cold start test was carried out, the start time was 268s, and the power battery SOC maintained a balance To meet the operational requirements of fuel cell vehicles in low-temperature environments, a low-temperature purge impedance calculation model for fuel cells independent of stack impedance detection was developed, with a maximum error of 4.5% between the impedance values calculated by the model and the test values from impedance measuring equipment. A low-temperature cold start control strategy for fuel cells was also developed, which can select different output powers according to the vehicle power demand, covering a range of -2 kW to 16 kW. Bench test results show that the developed low-temperature purge impedance calculation model and cold start control strategy enable 30 consecutive successful cold starts at -30°C, with only a 1.3% attenuation in stack voltage, a 7.0% decrease in the electrochemically active surface area (ECSA) of the first single cell, and a 12.2% decrease in the ECSA of the last single cell. Vehicle low-temperature tests were conducted at -20°C for verification, and the results demonstrate that the fuel cell system (FCS) starts successfully and can respond to the vehicle's power demand.
Ma et al. (Sun,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: