中国氯碱
中國氯堿
중국록감
CHINA CHLOR-ALKALI
2012年
7期
26-27,29
,共3页
电沉积纳米Ni—W—P合金%活性阴极%节能降耗
電沉積納米Ni—W—P閤金%活性陰極%節能降耗
전침적납미Ni—W—P합금%활성음겁%절능강모
electrodeposition of nanocrystalline Ni-W-P alloy%activated cathode%energy saving and consumption reduction
通过电镀法将纳米结构镍合金沉积在普通隔膜阴极上,开发新型活性阴极,降低阴极极化过电位。将该活性阴极技术与改性隔膜和扩张阳极技术集成,使普通隔膜电解槽改造成为节能型隔膜电解槽,降低隔膜电解槽的整体电压,达到节能降耗的目的。
通過電鍍法將納米結構鎳閤金沉積在普通隔膜陰極上,開髮新型活性陰極,降低陰極極化過電位。將該活性陰極技術與改性隔膜和擴張暘極技術集成,使普通隔膜電解槽改造成為節能型隔膜電解槽,降低隔膜電解槽的整體電壓,達到節能降耗的目的。
통과전도법장납미결구얼합금침적재보통격막음겁상,개발신형활성음겁,강저음겁겁화과전위。장해활성음겁기술여개성격막화확장양겁기술집성,사보통격막전해조개조성위절능형격막전해조,강저격막전해조적정체전압,체도절능강모적목적。
This article through the electroplating method of nano structure nickel alloy deposition in the original common diaphragm cathode, the development of novel active cathode, reduces the cathodic polarization overpotential. At the same time, the active cathode technology and modified diaphragm and expanded anode technology integration, so that the ordinary diaphragms into energy-saving diaphragm electrolyzer diaphragm electrolytic cell, reduce the overall voltage, to achieve the purpose of energy saving.
