| 摘要 |
A manufacturing method of a hydrogen-oxygen generating electrode plate using a carbon nanotube is provided to secure economic efficiency by increasing the generation amount of hydrogen and oxygen compared to the input electrical energy, and to extend the service life by suppressing the decomposition in long time electrolysis. A manufacturing method of a hydrogen-oxygen generating electrode plate using a carbon nanotube comprises a step of forming a mixture of high dispersion degree by mixing carbon nanotube(CNT) powder, carbon(C) powder, nickel oxide(NiO) powder, decarboxylation sodium(NaTao3) compound powder, a catalyst consisting of the lanthanum(La), powdered optical nano tourmaline, and powdered platinum, a step of molding a press-molded product by injecting the mixture in a mold and pressurizing at the pressure of 500~1500ton/cm^2, and a step of sintering the press-molded product in a sintering furnace at 600~2000°C for 20~400 minutes. Based on the carbon 100 weight%, the carbon nanotube is 2~15 weight%, the nickel oxide is 80~360 weight%, the decarboxylation sodium(NaTao3) compound is 20~130 weight%, and the catalyst is 10~200 weight%. |
