Electrolysis of water is in a specific current frequency, through the cathode and anode electrolysis plate, on the basis of tap water, without adding any substances electrolysis process: through electric energy conversion, change the physical structure of water, due to water pollution and secondary
READ MOREIon exchange membranes are selectively permeable. It only allows Na + to pass through with a small amount of water molecules, and it is difficult for other ions to pass through. During electrolysis, a strictly refined NaCl solution is injected into the anode chamber from the lower part of the electrolytic cell, and water is injected into the cathode chamber.
READ MOREWhen electrolyzing aqueous solution to produce hydrogen, Faraday's law is strictly observed in terms of material quantity: for each electrolyte solution passing through 96485.309C of electricity, an electrode reaction of gaining and losing 1 mol of electrons occurs on any electrode, and at the same time, it is related to the gain and loss of 1 mol of electrons.
READ MOREElectrolysis of water is in a specific current frequency, through the cathode and anode electrolysis plate, on the basis of tap water, without adding any substances electrolysis process: through electric energy conversion, change the physical structure of water, due to water pollution and secondary
READ MOREIon exchange membranes are selectively permeable. It only allows Na + to pass through with a small amount of water molecules, and it is difficult for other ions to pass through. During electrolysis, a strictly refined NaCl solution is injected into the anode chamber from the lower part of the electrolytic cell, and water is injected into the cathode chamber.
READ MOREWhen electrolyzing aqueous solution to produce hydrogen, Faraday's law is strictly observed in terms of material quantity: for each electrolyte solution passing through 96485.309C of electricity, an electrode reaction of gaining and losing 1 mol of electrons occurs on any electrode, and at the same time, it is related to the gain and loss of 1 mol of electrons.
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