硫酸盐化速率,sulfation rate英语短句,例句大全

硫酸盐化速率,sulfation rate
1)sulfation rate硫酸盐化速率
1.Based on the data,such as energy structure,previous industrial coal consumption,SO_2 emission,acid rain occurrence,sulfation rate,etc,features of changes of atmospheric SO_2 are disclosed,and main contribution to atmospheric SO_2 pollution is concluded as iron & steel industrial point sources.通过对该市能源结构、历年工业用煤量、SO2排放总量、酸雨发生频率、硫酸盐化速率等数据资料分析,揭示出该市近年来城市大气SO2变化特征,指出大气SO2污染贡献主要来源于钢铁工业点源。
2.Based on analysis of the survey results of sulfation rate and SO 2 in the air in Pingdingshan City from 1991 to 2000,the surphur pollutant source and its pollution features are obtained.通过对平顶山市 1991～ 2 0 0 0年空气中硫酸盐化速率和SO2 的检测结果分析 ,得出了平顶山市空气中含硫污染物的污染来源与污染特

英文短句/例句

1.Analyze on Relativity of Sulfuric Acid Salt Forming Velocity and Sulfur Dioxide石河子市大气硫酸盐化速率与二氧化硫浓度的相关性分析
2.Study on Relativity of Sulfate-rate and Sulfur Dioxide in Air in Zhabei闸北区大气硫酸盐化速率和二氧化硫相关性分析
3.Variation regularity of air sulphation rates and control measure in Urumqi;乌鲁木齐市大气硫酸盐化速率变化规律及治理措施
4.Study on the Spatial-Temporal Changes of Sulfation Rate of Xuzhou City in Recent Years徐州市近年来大气硫酸盐化速率的时空变化研究
5.Discussion on Natural Precipitated Particles and Sulph ate Rate of Air in the Urban Area of Luzhou泸州市城市空气自然降尘和硫酸盐化速率的探讨
6.THE EFFECTS OF ORGANIC ACID SALT ADDITIVES ON DISSOLVING RATE OF LINESTONE BY SULFURIC ACID有机酸盐添加剂对石灰石硫酸溶解速率的影响
7.determination of chromate, iodide, sulfite, thiocyanate and thiosulfate铬酸盐、碘化物、亚硫酸盐、硫氰酸盐和硫代硫酸酯的测定
8.Losses of Ca and Mg are accelerated by fertilizers which supply nitrate, sulphate and chloride.在施用硝酸盐、硫酸盐和氯化物的情况下会加速钙和镁的损失。
9.Research on Hydration of Rapid Hardening Sulphoaluminate Cement Using an Electrical Resistivity Method电阻率法研究快硬硫铝酸盐水泥的水化过程
10.bisulfate, bisulphate硫酸氢盐,酸式硫酸盐
11.Experimental Study of Gold-bearing Sulfide Ore by Thiosulfate Leaching Gold Process含金硫化矿硫代硫酸盐浸金试验研究
12.neutral sulphite semichemical pulp中性亚硫酸盐半化学浆
13.Sulfate: Any of numerous inorganic and organic chemical compounds related to sulfuric acid (H2SO4).硫酸盐;硫酸酯:任何与硫酸(H2SO4)有关的化合物。
14.general methods of test for pigments:determination of water-soluble sulphates, chlorides and nitrates水溶性硫酸盐、氯化物、硝酸盐测定
15.Determination of Oxidation Rate Constant of Sodium Formaldehyde Sulfoxylate;甲醛合次硫酸氢钠氧化反应速率常数的测定
16.hydrogen sulfate重硫酸盐，硫酸氢盐
17.Morphine [Hydrochloride, Sulfate]吗啡[盐酸盐，硫酸盐]
18.Sulfate-reducing bacteria(SRB) in sewage sludge and release of H_2S污泥硫酸盐还原菌(SRB)与硫化氢释放

相关短句/例句

dipping acid salt forming speed rate硫酸盐化速率
1.This paper studies relativity of dipping acid salt forming speed rate and monitored value of sulfur dioxide in air from 1999 to 2002 in Yining city by regression dioxide.对伊宁市 1 999— 2 0 0 2年空气中硫酸盐化速率和二氧化硫监测值进行回归分析 ,结果表明 ,二者之间存在显著的线性正相关关系 ,但对各年度回归方程斜率和截距进行统计检验 ,则表现出显著的差异。
3)sulfation[s?l'fei??n]硫酸盐化
1.The usage of this term is confirmed to the greater user community and, over time, has encouraged a myriad of remedies for solving sulfation problem.硫酸盐化是铅酸电池发明之初就出现并遗留至今的术语,它被用来解释和证实铅酸电池退化和失效的可能性。
2.With slow pulse fast charge not only came true high efficient fast charge, but also held down gas evolution, cleared off sulfation and fulfilled the balanced charge, so it extended the cycle life of lead acid battery.采用慢脉冲快速充电方法不仅可实现高效快速充电,同时可以减少析气,消除硫酸盐化,进行均衡充电,从而延长了铅酸蓄电池的使用寿命。
3.It was found that sulfation of the negative plate was caused mainly by the lose of the organic expander and the sulfation could be eliminated through the negative material formula and charge method adjustment.应用SEM对阀控式密封铅酸蓄电池在循环过程中不同阶段的负极物质的微观结构进行了观察 ,发现有机膨胀剂的损失是导致负极活性物质出现不可逆硫酸盐化现象的主要原因。
4)sulphation[s?l'fei??n]硫酸盐化
1.Effect of pulse charge on sulphation of lead-acid battery;脉冲充电对铅酸蓄电池硫酸盐化的影响
2.Tear-down analysis indicates that for VRLA battery,water loss,negative plate sulphation and positive active material softening are the main causes of failure.通过对失效的VRLA电池的解剖分析,电池失水、负极板硫酸盐化和正极板活性物质软化是导致VRLA失效的主要原因,介绍了一种使失效电池容量恢复的方法,并对该方法的有效性机理进行了简单分析。
3.The relationship between the water loss and lots of break downs such as sulphation, positive grid corrossion, positive active mass softening and short circuit, has been discussed.通过对失效的阀控式铅蓄电池进行的容量恢复实验及解剖分析，提出了失水是导致阀控式铅蓄池失效的主要原因以及失效电池容量恢复的方法，并讨论了硫酸盐化、正极板栅腐蚀、正极活性物质软化及短路等故障及其与失水之间的关系。
5)rate of cure vulcanization rate硫化速率
6)sulphation[s?l'fei??n]硫酸化硫酸盐化