1.
The Synthesis and Application of Solid Acid Catalysts for Methanol Dehydration;
甲醇脱水反应中固体酸催化剂的制备及应用
2.
Dehydration of Ethanol Catalyzed by Acidic Ionic Liquid
酸性离子液体在乙醇脱水反应中的应用
3.
Analysis of Liquid Components in the Dehydration of Ethanol to Ethylene with High Performance Liquid Chromatography
生物乙醇脱水反应中副产物的色谱分析
4.
Experimental Study on the Internal Recycle gradientless Reactor to be Used for the Dehydration Reaction of Ethanol
内循环无梯度反应器用于乙醇脱水反应的实验研究
5.
Hydrodynamic analyses for the dehydration column of Mitsui PX oxidation reactor
三井氧化反应器脱水段的水力学分析
6.
Study on the Modeling of the Reactor for Ethanol Dehydration to Ethylene;
乙醇脱水制乙烯反应器的模型化研究
7.
Reaction Characteristics of Glycerol Dehydratase from Klebsilla pneumoniae XJ-Li
Klebsilla pneumoniae XJ-Li甘油脱水酶的催化反应特性
8.
Study on Hydrolysis Denitrification Applied to Biological Nitrogen Removal of Urban Sewage
水解反硝化在城镇污水脱氮处理中的应用研究
9.
Photochemically Enhanced Fenton Reaction Used in the Degradation of Water-soluble Dyes;
光助芬顿氧化反应应用于水溶性染料脱色研究
10.
Adsorption Reaction Space in Activated Carbon Desulfurization on the Condition of Desorbing by Water
水涤脱附条件下活性炭脱硫中吸附反应空间的研究
11.
Study on plasma chemical reaction of water interface corona discharge desulfurization and denitrogenation
水界面电晕放电脱硫脱氮的等离子化学反应研究
12.
The dehydration process can be described by means of apparent first-order reaction.
突发脱水后的过程可以用一级反应动力学描述。
13.
Principal application of reverse osmosis has been in desalting brackish waters for domestic consumption.
反渗透主要应用于生活用含盐水的脱盐。
14.
Hydrothermal Reaction of Lime with Fly Ash to Prepare Ca-based Absorbent for Flue Gas Desulfurization;
粉煤灰水热化合反应制备钙基烟气脱硫剂
15.
Optimized Design and Implication of RO Desalination of Groundwater;
地下水反渗透脱盐优化设计和工程应用
16.
The Research on the Antibiotic Wastewater Treatment and Nitrogen Removal by Membrane Reactor;
膜生物反应器处理抗生素废水及脱氮研究
17.
Design of New-style Biofilm Reactor and Study on Removal of Nitrogen in Wastewater;
新型生物膜反应器的设计及废水脱氮研究
18.
Dehydrin Gene Transformed Petunia Hybrida Showed Strong Resistance to Drought Stress;
脱水素基因转化的矮牵牛对干旱胁迫的反应