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    Experimental Investigation About Improvement in the Electrolytic Refining of Secondary Lead Anode with High Antimony Content(Ⅱ)
    关于改进高锑杂铅阳极电解精炼的实验研究 第三部分 高锑杂铅阳极的连续电解试验
    Disposal of Copper-base Alloy(Ⅱ)——Research on Alloy Electrolysis
    铜基多元合金的处理(Ⅱ)——连续电解实验研究
    It was shown from continuous electrolysis testthat Ni-W-P alloy cathode had long life and steady performance.
    连续电解实验结果表明,纳米结构 Ni-W-P 合金阴极寿命长、性能稳定,具有很强的抗反向电流能力。
    The anolyte of Na2FeO4 in the concentration range from 0.32-0.48mol/L can be obtained by electrolyzing the iron anode during the time of 5-6h with an average current efficiency of 35% (6h) -49. 6% (3h).
    衡直流连续电解5~6h,阳极液中Na_2FeO_4的浓度可达0.32~0.48mol/L,平均电流效率为35%(6h)~49.6%(3h);
    When temperature being 80 C , pH=7~8, 1=0.45-0.5A, reaction time being 2 hours, residual nickel concentration in the spent baths could be reduced from 2018mg/L to 53.7mg/L and the removing rate was 97.3%, the electric current efficiency was 22.4%.
    当温度为80℃,pH=7~8,I=0.45~0.50A时,对化学镀镍废液连续电解2小时,可使废液中镍离子的浓度从2018mg/L降至53.7mg/L,去除率达97.3%,电流效率为22.4%。
    This paper reports an experimental research on Pb—Ag—Ca alloy anode to electrolytic MnO_2 (EMD). The voltage of electrolyser is stable below 2.5 V. The current density (i.d) is stable on 80~90A/m~2. The current efficiency is average of 90% in two periods (30 days each period). Batteries №1 are made from about 3Kg productor of EMD.
    本文初步报道了Pb—Ag—Ca合金阳极用于电解MnO_2(EMD)的实验研究工作,经二周期(一周期为30天)的连续电解,电流密度(i.d)稳定在80~90A/m~2,槽压稳定在2.5V以下,电流效率平均为约90%,所得产品约3Kg作成Ⅰ号电池测得电性能数据如下。
    The experimental results showed that the ceramics based β PbO 2 electrode exhibited superior overall properties compared with Ti based electrodes. Under the current density of 100A/dm 2, the lifetime was up to 1300 h in 9 mol/L H 2SO 4 electrolyte solution.
    研究发现 ,陶瓷基体 Pb O2 电极具有较好的性能 ,在 9mol/L H2 SO4溶液中 ,1 0 0 A/dm2 的电流密度下连续电解 ,寿命可达 1 30 0 h以上。
    For the Cu-Zn-Sn-P alloy grid,the electrolysis was studied.
    针对Cu-Zn-Sn-P四元合金网废料,采用连续电解的方式研究了采用电化学溶解———电解沉积的工艺;
    Amounts of H+ and OH- required to suppress the eluent were supplied by an electrochemical self-generating suppressor through continuous electrolysis of water.
    采用的电化学自身再生抑制器,由连续电解水产生抑制淋洗液所需要的H+或者OH-,加上电场引力,能用于高容量分离柱所用的淋洗液浓度和梯度淋洗。
    Preparation of uranous nitrate by continuous electrolytic reduction
    动态连续电解还原制备四价铀的研究
 

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