2) electrochemically catalytic oxidation
电化学催化氧化
1.
Desulfurization of gasoline by electrochemically catalytic oxidation;
汽油电化学催化氧化脱硫
3) catalysis kinetics
催化动力学
1.
Determination of trace chromium in macromolecule material by catalysis kinetics;
催化动力学法测定高分子材料中的痕量铬
2.
Base on the linear response of the relative fluorescence intensity to the benzoic acid concentration,a novel catalysis kinetics fluorimetry system for the determination of trace of benzoic acid was established with the determination limit of 8.
基于此现象,建立了测定酱油中痕量苯甲酸的催化动力学荧光新方法。
3.
A method for measurement of urine iodine was also developed by combining sequential injection and catalysis kinetics,and making use of catalysis facilitation of the iodine in the redox reaction of As3 + and Ce4 +.
研制了一种顺序注射尿碘分析仪,将顺序注射技术与催化动力学分析相结合,利用碘对砷-铈氧化还原反应的催化作用,建立了顺序注射尿碘测定方法。
4) catalytic kinetics
催化动力学
1.
Study on catalytic kinetics of commercial pectinase from Aspergillus niger;
商品果胶酶(Aspergillus niger)的催化动力学研究
2.
Study on catalytic kinetics and de-active kinetics of nitrile hydratase;
丙烯腈水合酶催化动力学及失活动力学研究
3.
The principle and experi mentofcatalytic kineticsspectrophotometry were discussed taking this catalysed reaction for ex amplein this paper.
本文以此为例对催化动力学光度法的原理与实验进行讨论。
5) catalytic kinetic
催化动力学
1.
Study on determination of trace copper(Ⅱ) by catalytic kinetic fluorimetric quenching method;
催化动力学荧光猝灭法测定痕量铜(Ⅱ)研究
2.
Determination of trace copper in seawater by spectrophotometric method with reverse FIA catalytic kinetic
反相流动注射催化动力学分光光度法测定海水中的痕量Cu
3.
A review of recent research progresses in the determination of trace amount of formaldehyde with catalytic kinetic spectrophotometric method is presented and discussed in this article,including the research progresses in the sample that involves food,air,water quality,etc.
综述了近年来催化动力学光度法测定痕量甲醛的研究进展。
6) catalytic kinetic method
催化动力学
1.
A new and sensitive catalytic kinetic method was set up for the polarographic determination of manganese.
40)加热时,Mn(Ⅱ)能催化H2O2氧化铬蓝黑R的慢反应,用单扫极谱法监测铬蓝黑R浓度变化,建立了测定痕量锰的催化动力学方法。
补充资料:催化动力学
分子式:
CAS号:
性质:催化反应动力学研究催化反应速率与接触时间、温度、反应物和产物浓度(或压力)等物理量之间的关系,即求催化反应的速度方程。根据方程的形式及方程中的常数值,可以揭示反应机理,利用速度方程可计算不同反应条件下反应产物的产率,可寻求最佳反应条件,为模拟放大提供依据。是反应工程研究的基础之一。
CAS号:
性质:催化反应动力学研究催化反应速率与接触时间、温度、反应物和产物浓度(或压力)等物理量之间的关系,即求催化反应的速度方程。根据方程的形式及方程中的常数值,可以揭示反应机理,利用速度方程可计算不同反应条件下反应产物的产率,可寻求最佳反应条件,为模拟放大提供依据。是反应工程研究的基础之一。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条