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- In this paper,the calculating formula of sea water oxi-dazing reduction potential is derived and the transformation of oxidation reduction of heavy metal in sea water is analyzed. 本文导出海水氧化还原电位计算公式,定性分析了重金属在海水中氧化还原转化。
- oxidation reduction potential (redox potential;ORP) 氯化还原电位
- subsidiary standard oxidation reduction potential 副标准氧化还原电势
- oxidation reduction potential (ORP) 氧化还原电位(ORP)
- oxidation reduction potential of soil 土壤氧化还原电位
- standard oxidation reduction potential 标准氧化还原电位
- oxidation reduction potential determination 氧化还原电位测定
- oxidation reduction potential(ORP) 氧化还原电位
- Oxidizing reduction potential 氧化还原电位
- Relationship Between Inorganic Components and Oxidation Reduction Potential in Drinking Water 饮用水中无机成分与氧化还原电位的关系
- Responses of Microcystis aeruginosa to reducing oxidation reduction potential under competition growth condition 铜绿微囊藻在竞争生长条件下对氧化还原电位降低的响应
- An Analysis of Factors Affecting the Oxidation Reduction Potential in Drinking Water 饮用水氧化还原电位的影响因素分析
- Keywords Microcystis aeruginosa;Scenedesmus obliquus;mixed culture;competition;oxidation reduction potential; 铜绿微囊藻;斜生栅藻;混合培养;竞争;氧化还原电位;
- Keywords three-dimensional electrode;electrochemical reactor;dye-wastewater;oxidation reduction potential(ORP); 三维电极;电化学反应器;染料废水;氧化还原电位;
- Keywords Salt-tolerant mixed cultures;Dye decolorization;Activated sludge;Hypersaline wastewater of dye;Oxidation Reduction Potential (ORP); 耐盐菌群;高含盐染料废水;染料脱色;活性污泥;氧化还原电位;
- On the basis of teaching research,how to judge the application of standard electricpotential of electrode to oxidizing reduction resultant is discussed by analysing a key to exercises. 从教学研究角度出发,通过一例题解的分析,讨论了标准电极电势应用于氧化还原反应生成物的判断。
- They also underline the emissions reduction potential of restoring vegetation on degraded watersheds and pasture. 他们还强调,恢复植被退化的集水区和牧场来减少碳排放。
- oxidation reduction potential 氧化还原势,氧化还原电位,氧化还原电势
- Oxidazing reduction potential in sea water is one of the main factors to control the formation of metal pollutant deposit. 海水的氧化还原电位,是控制金属污染物溶存形式的主要因素之一。
- An increase in the electron-donor properties of the substituent at different position made the reduction potential more negative and the apparent activity energy more bigger. 硝基苯的邻位、间位或对位被氯、甲基或羟基取代时,取代基的推电性越强,硝基的还原峰电位越负,反应所需的表观活化能越大。
