概述了甲醇电催化氧化机理。
The mechanism for electrocatalytic oxidation of methanol was briefly summarized.
结果显示,电催化氧化处理后的废水的可生化性得到了提高。
The results showed that the wastewater biodegradability has been improved through electro-catalytic oxidation treating.
复合膜修饰玻碳电极对葡萄糖具有良好的电催化氧化还原性能。
Glassy carbon electrode modified with the composite membrane showed good performance of electro-catalytic oxidation-reduction for glucose.
研究了水杨醛谷氨酸合钴修饰碳黑微电极的制备方法和修饰电极对一氧化氮的电催化氧化性能。
In this paper, the preparation and electrochemical characteristics of carbon black microelectrode modified by cobalt (II) complex with N-salicylidene glutamic Acid are studied.
伏安电荷、电化学孔隙率和分形维数的变化规律有效地反映了电极的电催化氧化活性和稳定性的变化。
Regularities of voltammetric charge, electrochemical porosity and fractal dimension of the electrodes reflected variations of electro-catalytic oxidation activity and stability effectively.
研究发现,槽电压和废水初始COD对COD去除率的影响最大,而电解质的加入对电催化氧化影响不显著。
The results show that cell voltage and initial COD of the wastewater have the biggest effect on the COD removal rate. But the effect of electrolysis on electro-catalytic oxidation is not remarkable.
采用无隔膜电催化氧化法作为生化预处理方法对不适于生化处理的中低浓度含醛废水进行预处理,并对影响工业化运用的因素进行了分析。
The electrolysis as a treatment technic was adopted in order to treat the acetaldehyde wastewater, and the impact of the industrialized operation of the factors were analyzed.
项目名称:开发一种集成式微生物电催化(aec)系统,利用二氧化碳生产液态燃料。
Official Name: Development of an Integrated Microbial-ElectroCatalytic (MEC) System for Liquid Biofuel Production from co2.
在甲醇的氧化和氧气的还原反应中,金纳米花显示出优良的电催化活性。
The GNFs show excellent electrocatalytic activity toward the oxidation of methanol and the reduction of oxygen.
综述了三氧化钼及其水合物在用作锂电池阴极材料、电化学显色材料和电催化材料方面的研究进展。
Recent progress in the research on molybdenum trioxide and its hydrates used as lithium cell cathodic materials, electrochromic materials and electrocatalytic materials is reviewed in this paper.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
应用推荐