SOLID HIGH POLYMER TYPE FUEL CELL POWER GENERATING DEVICE
The present invention provides a proton-exchange membrane fuel cell power generating equipment that keeps temperature of coolant of a fuel cell in a predetermined temperature range without stop operation of the equipment even when a hot water reserving tank is filled with hot water and the hot water...
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Format: | Patent |
Sprache: | eng ; fre ; ger |
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Zusammenfassung: | The present invention provides a proton-exchange membrane fuel cell power generating equipment that keeps temperature of coolant of a fuel cell in a predetermined temperature range without stop operation of the equipment even when a hot water reserving tank is filled with hot water and the hot water is not discharged to the outside, automatically prevents freezing of a water system during stop operation of the equipment, minimizes maintenance work in a cold region or in the winter season, has high reliability with equipment's service life extended, and supplies hot water heated by efficiently recovering exhaust heat from plural heat exchangers installed in the equipment to the hot water reserving tank. The power generating equipment has a line for circulating and feeding hot water A produced by exchanging heat in the heat exchanger connected to a process gas burner for burning hydrogen until the equipment becomes stable in starting operation. When a water temperature of a water tank becomes a predetermined temperature or more, a fan for feeding air for combustion to the said process gas burner is operated to decrease temperature of the hot water A using the heat exchanger as a cooler of the hot water A and the cooled hot water A is circulated and fed to the line for cooling. The equipment has a control system that, when the water system may freeze during stop operation of the power generating equipment, prevents the freezing by detecting freezing, operating the process gas burner to circulate the hot water of the hot water reserving tank in a part or the whole of the water system. City water supplied to the bottom of the hot water reserving tank is taken out and fed to the fourth heat exchanger through the first duct, from the fourth heat exchanger to the third heat exchanger through the second duct, to the first heat exchanger through the third duct, and then to the second heat exchanger through the fourth duct, and hot water is supplied from the second heat exchanger to the upper part of the hot water reserving tank through the fifth duct via die first selector valve. The fifth duct is branched, the hot water from the second heat exchanger is guided to the water tank through the sixth duct via the second selector valve, merged with the fifth duct through the seventh duct, and returned to the hot water reserving tank. |
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