1) Three-phase three-dimensional electrode
三相三维电极
1.
The paper studies the influence of different factors on removal effect of phenol wastewater by three-phase three-dimensional electrode reactor,determines the optimum response conditions,and discusses the reaction mechanism.
目的研究三相三维电极反应器中不同因素对苯酚废水去除效果的影响,确定最佳反应条件,并对其反应机理初步探讨。
2) three-phase three-dimensional electrode reactor
三相三维电极反应器
1.
The simulative wastewater containing Acid Orange 7(AO7) of 300(mg/L) was electrolytically treated by a three-phase three-dimensional electrode reactor.
采用具有不同阴极材料的三相三维电极反应器,对300 mg/L酸性橙7(AO7)模拟废水进行处理研究,重点考察阴极材料对脱色率和反应体系矿化能力的影响,同时利用HPLC、UV-Vis、GC-MS等分析方法对。
2.
The electrolytic treatment of simulative wastewater containing Acid Orange 7(AO7) was investigated using a three-phase three-dimensional electrode reactor.
采用三相三维电极反应器对酸性橙7(Acid Orange 7,AO7)模拟废水进行电解处理实验研究。
3) three-dimensional three-phase fluidized bed electrode
三维三相流化床电极
1.
Treatment of aniline using three-dimensional three-phase fluidized bed electrode;
三维三相流化床电极处理苯胺实验研究
4) thre e-phase three-electrode
三相三电极
5) Three-dimensional Electrode
三维电极
1.
Analysis of effect of dyestuff wastewater treatment by three-dimensional electrode reactor;
三维电极反应器处理染料废水效果分析
2.
Study on treatment of dye-wastewater with three-dimensional electrode reactor;
三维电极反应器处理染料废水的研究
3.
The paper studied the degradation of landfill leachate by three-dimensional electrode on PbO2/Ti anode.
研究了基于PbO2/Ti阳极的三维电极法处理垃圾渗滤液。
6) three dimensional electrode
三维电极
1.
Study on COD removal by using three dimensional electrode-Fenton method;
三维电极-Fenton试剂耦合法去除废水COD实验研究
2.
Study on the treatment of dyeing wastewater by using three dimensional electrode electrochemical method;
三维电极电化学方法处理印染废水实验研究
3.
Study on treatment of dye-wastewater by using Fe/AC three dimensional electrode method
活性炭载Fe~(2+)三维电极法处理染料废水
补充资料:三维电极
分子式:
CAS号:
性质:相对于板、片等二维电极而言的电极结构,如多孔电极(化学电源)、填充床电极(用于废水中金属之回收)等。其特点是电极的有效面积大增,效率提高,但制约因素较二维电极为多。一般的三维电极本身是静止的,为了使电解液与电极颗粒充分接触,动态的三维电极(如流化床电极)也在研究之中。
CAS号:
性质:相对于板、片等二维电极而言的电极结构,如多孔电极(化学电源)、填充床电极(用于废水中金属之回收)等。其特点是电极的有效面积大增,效率提高,但制约因素较二维电极为多。一般的三维电极本身是静止的,为了使电解液与电极颗粒充分接触,动态的三维电极(如流化床电极)也在研究之中。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条