Generation and storage system for high purity hydrogen

文件类型：PDF文档
文件大小：705K
The present invention relates to a high purity hydrogen generation and storage system, Generating hydrogen (hydrogen; symbol H) through the electrolysis and hydrogen reactor of water (H 2O) in the hydrogen generating device, and inhaling the gas hydrogen stored in the hydrogen storage tank with a vacuum motor to pass through one or more carbon filters to discharge the high purity gas hydrogen removed impurities, and put the high purity gas hydrogen into one or more cooling tanks it can be safely stored at cryogenic temperatures with hydrogen. High purity hydrogen generation and storage system of the present invention, with regard to the total 100% by weight, Hydrogen generating device 110, which generates gas hydrogen by chemical reactions of hydrogen-producing substances and water (H2O), including magnesium of 30% by weight, diamonds of 0.1% by weight, crystals of 0.1% by weight, platinum of 0.1% by weight, calcium by 1% by weight, rare earths of 8% by weight, charcoal of the remaining weight%; Storing the gas hydrogen generated by the hydrogen generating device 110 on the top of the water containing inside, the hydrogen storage tank 120 installed a valve 122 in the hydrogen discharge pipe 121; Inhaling the gas hydrogen stored in the hydrogen storage tank 120 into the vacuum motor 130 to discharge the high purity hydrogen that impurities were removed, one or more carbon filter 140 installed in the valve 141 in the piping on the inlet and outlet side; The carbon filter 140 is stored as liquefied hydrogen at cryogenic temperatures of minus 60-257 °C, consisting of a double or triple structure of stainless steel, liquefied hydrogen is stored inside the inner tank of the innermost tank and an external and internal cooling tank 210, 220 containing refrigerant in the space between the tank and the tank, A refrigeration motor 250 that keeps the internal temperature of the cooling tank 200 to minus 60-257 °C by the refrigerant temperature sensor 260 for measuring the temperature of the refrigerant in real time, Progressive sensing sensor 280 for detecting that the refrigerant leaks installed in the external cooling tank 210, and the electronic valve 240 for the anti-backflow installed in the hydrogen inlet, and one or more cooling tanks 200 installed a water level sensing sensor 270 for detecting the water level of the liquefied hydrogen; Pressure gauge 302 for displaying by measuring the hydrogen pressure installed in the discharge pipe 301 of the cooling tank 200; The water level and pressure control valve 306 for controlling the level and pressure of the liquefied hydrogen by discharging the hydrogen of the cooling tank 200 to the hydrogen storage tank 120 or the carbon filter 140 according to the signal of the water level sensing sensor 270 and the pressure gauge 302; And by the signal or measurement data of the refrigerant temperature sensor 260, the water level sensing sensor 270, the progressive sensing sensor 280 and the pressure gauge 302, The hydrogen generating device 110, the vacuum motor 130, the valve 122, 141 and the water level and pressure control valve 306 to control the operation and the control unit 160 to control the temperature of the cooling tank 200