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    • 6. 发明专利
    • FUEL CELL SYSTEM
    • JPH06223852A
    • 1994-08-12
    • JP841393
    • 1993-01-21
    • HITACHI LTDHITACHI KYOWA KOGYO KK
    • MOGI MANABUSATO TAKAOAMANO YOSHIAKIMIZUNIWA FUMIO
    • H01M8/04
    • PURPOSE:To ensure the control of water quality for easy maintenance by controlling a cooling water refilling means and a draining means in accordance with a signal from a water quality monitoring means to monitor water quality. CONSTITUTION:Cell cooling water is guided from a water supply source to a water tank 2a and fed into a vapor separator with a water supply pump 2d. The cooling water. being hot, is cooled in a cell cooling water cooler 2f. It is guided into a fuel cell main pipe 2h with a cooling water circulation pump 2g to cool the fuel cell mainframe and guided into the separator 2e for circulation. The quality of the cooling water is monitored by a water quality monitor 2i which is provided between the cell cooling water cooler 2f and the cooling water circulation pump 2g to measure the pH or conductivity of the cooling water. When the measured value exceeds a preset threshold value, a signal is issued to actuate the pump 2d, open a current valve 2k which is provided in a drain line for the separator 2e and perform refilling, drainage, and exchange of the cooling water. The quality of the cooling water is then automatically regulated to set the pH or conductivity to a preset value, resulting in easy maintenance.
    • 7. 发明专利
    • WATER QUALITY MONITOR METHOD IN STEAM POWER PLANT
    • JPH01277748A
    • 1989-11-08
    • JP10731588
    • 1988-04-28
    • HITACHI LTDHITACHI ENG CO LTDHITACHI KYOWA KOGYO KK
    • MIZUNIWA FUMIOOSUMI KATSUMIITO HISAOIGARASHI HIROOSHINDO KIICHI
    • G01N27/06G01N33/18G21C17/02
    • PURPOSE:To efficiently use the adsorption capacity of an ion exchange resin and to quantitatively determine the proper replacement of the ion exchange resin, by accurately calculating not only the concn. of an ion becoming the load to the ion exchange of a condensing demineralizer but also the adsorption load quantity to the ion exchange resin. CONSTITUTION:The whole quantity of the condensed water from a condenser 1 is passed through a condensing demineralizer 3 to adsorb and remove the ion components in said condensed water by an ion exchange resin 21 and the treated water is supplied to a nuclear reactor 5 through a water feeding heater 4. A part of the condensed water is sampled as sample water from each of sample water collecting pipings 7, 8 to respectively guide both sample waters to carbonic acid densitometers 9, 11 and conductivity meters 10, 12 to measure carbonic acid concns. and conductivities. At this time, the contribution of a free hydrogen ion caused by carbonic acid to the measured value of conductivity is calculated and the conductivity value obtained by subtracting said contribution from the conductivity measured value is converted to NaCl concn. The concn. of an ion becoming the load to the ion exchange resin in water is evaluated. By this method, the proper replacement of the ion exchange resin is quantitatively determined.