1) Reaction kinetics
水合反应动力学
2) hydration
水合
1.
Synthesis of Thermal Stable Anion Exchange Resin and its Using in EO Catalytic Hydration;
耐高温阴离子交换树脂的合成及在环氧乙烷催化水合反应中的应用
2.
Preparation and hydration of tiny silica;
超细SiO_2的制备及水合特性实验分析
3.
Running analysis of preparing methyl ethyl ketone from n-butylene hydration;
正丁烯水合法制甲乙酮装置运行分析
3) hydrazine
水合肼
1.
Effect of lanthanum dopant Ni/γ-Al_2O_3 catalyst prepared by hydrazine reduction on hydrogenation activity;
镧助剂对水合肼还原的Ni/γ-Al_2O_3催化剂加氢性能影响
2.
Electroless nickel plating bath in which hydrazine was used as reaction initiator,hydrazine and sodium hypophosphite were used as the reducing agent,was studied.
铜上化学镀Ni-P合金通常需要用钯催化剂或其它无钯催化剂催化后才能施镀,研究了利用水合肼为引发剂,以水合肼和次磷酸钠为还原剂的化学镀Ni-P合金液,在铜箔上直接施镀,铜箔无须镀前催化。
3.
Cu-Ag bimetallic powders whose grain size was similar to the copper powders,were prepared by reduction reaction with hydrazine as the reducing agent by means of inhibiting substitution reaction.
反应体系中引入强还原剂水合肼,通过反应条件的控制抑制置换反应,使银氨溶液优先发生液相还原反应,制备了与原铜粉粒径和形貌大致相同的铜-银双金属粉;采用XRD、EDX、激光粒度分析仪等检测方法对包覆双金属粉的晶相组成及含量、表面包覆层相组成及含量以及粒径分布等加以研究。
4) hydrate quantity
水合物量
1.
The effects of temperature and hydrate quantity on the dissociation kinetics of methane hydrate were studied in a 10 L quiescent reactor.
在体积10L的静态反应器中研究了水合物分解动力学,考察了储存温度和水合物量等因素对水合物分解的影响。
5) hydrate
水合物
1.
Prevention and cure of gas hydrate in Yaoyingtai Gasfield;
腰英台气田天然气水合物防治
2.
Experimental study on optimized synthesis for natural gas hydrate;
天然气水合物优化合成实验研究
3.
A Simple Prediction Model for Hydrate Formation Conditions;
简易水合物生成条件预测模型
6) hydrazine hydrate
水合肼
1.
Preparation of ultrafine copper powder with hydrazine hydrate as reducing agent;
水合肼为还原剂制备超细铜粉的研究
2.
Improvement on units of crude hydrazine hydrate refining procedure;
粗水合肼精制工序的装置改进
3.
Research on expansion examination of ammonia removal by heat method of hydrazine hydrate by-product salt slag;
热法除水合肼副产盐渣中氨的扩试研究
参考词条
补充资料:水合反应
分子式:
CAS号:
性质:水(或水的组分H和OH)加到不饱和分子上的反应。例如:乙烯可在酸催化下水合生成乙醇,乙炔在硫酸汞催化下水合生成乙烯醇,乙烯醇立即转化为乙醛。这些是工业上生产乙醇和乙醛的重要方法。不对称烯烃和炔烃的水合反应,符合马尔可夫尼可夫规则。
CAS号:
性质:水(或水的组分H和OH)加到不饱和分子上的反应。例如:乙烯可在酸催化下水合生成乙醇,乙炔在硫酸汞催化下水合生成乙烯醇,乙烯醇立即转化为乙醛。这些是工业上生产乙醇和乙醛的重要方法。不对称烯烃和炔烃的水合反应,符合马尔可夫尼可夫规则。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。