1.
Investigation on a new analytical method for determination of Vanadate(Ⅴ) based on the combination of electrochemical parallel catalytic wave effect and chemiluminescence signal sensing
基于电化学平行催化波效应与化学发光信号传感相偶合测定V(Ⅴ)的分析新方法
2.
Current situation of the insulating and wearing-resistant concrete lining for fluid catalytic cracking units wassummarized, and the gap between home and abroad was also discussed.
论述了我国石油化工行业催化裂化装置用隔热耐磨衬里的现状以及与国外先进水平的差距。
3.
Study on the Adsorption and Photocatalysis Behavior of the Adsorption/Photocatalysis Coupling Regular Photocatalyst
吸附/光催化偶合规整催化剂的吸附及光催化行为研究
4.
SIMULATION CALCULATION OF EQUILIBRIUM STAGE OF FCC MAIN FRACTIONATOR
催化裂化主分馏塔的平衡级模拟计算
5.
Study on the Catalytic System of Palladium Prepared from Microemulsions and Its Catalytic Behaviors
微乳液制备钯催化体系及其催化行为的研究
6.
Determination of Total Acidity of solid Catalyst by Pyridine-Thermobalance Method
吡啶-热天平法测定催化剂固体总酸度
7.
Commercial application of water-chlorine balance for catalyst
水氯平衡调整在催化剂上的工业应用
8.
Applications of Rotary Calcinators in the Fluid Catalyst Cracking(FCC) Catalyzer Industry and Their Optimum Structure
回转焙烧炉在催化裂化催化剂行业的应用及其结构优化
9.
Synthesis of adamantane was studied using AlCl 3 catalyst system and co-catalysts.
用三氯化铝-助催化剂的催化体系进行了金刚烷合成的研究。
10.
Catalytic oxidation behavior of phenol adsorbed on Cu-Ce/AC catalyst-sorbent
Cu-Ce/AC吸附-催化剂对所吸附苯酚的催化氧化行为的研究
11.
The Proof on the Relation of the Catalyst Between Chemical Equilibrium and Rate of the Reaction;
催化剂与反应速率及化学平衡关系的论证
12.
Harnessing gravity fields for anti-proton catalyzed fusion.
利用重力场进行反质子催化熔解。
13.
Study on Photocatalysis to Decompose the Formaldehyde of Indoor Pollution;
进行光催化消除室内甲醛污染的研究
14.
Thermal and Catalytic Pyrolysis of Waste Tires;
废旧轮胎热裂解与催化裂解行为研究
15.
Bank Charging Diversifies the Financial Services;
银行收费有利于催生立体化金融服务
16.
LONG-TERM OPERATION OF CATALYSTS FOR TWOSTAGE HYDROGENATION OF PYROLYSIS GASOLINE
裂解汽油加氢两段催化剂长周期运行
17.
The Introduction of Movement for 150kt/a Catalytic Reforming Unit
15万t/a催化重整装置运行分析
18.
Study on Selective Catalytic Redution of NO_x with NH_3 Using Wiremesh Honeycomb Catalyst;
用蜂窝状金属丝网催化剂进行NH_3选择性催化还原NO_X的研究