1.
Design of Fuzzy Control Loop on Temperature for Hydrogen Generation System by Water Electrolysis
水电解制氢温度模糊控制系统的设计
2.
Adding capacity for QDQ2-1 plateau water electrolysis hydrogen production device
QDQ2-1型高原水电解制氢设备的增容
3.
Temperature Sensitivity Analysis of High Temperature Steam Electrolysis System for Hydrogen Production
高温蒸汽电解制氢系统温度敏感性分析
4.
In particular, the potential developments and the application on the cathode of the high temperature steam electrolysis are put forward.
对阳极材料在高温电解制氢领域阴极上的应用前景进行了展望。
5.
Oxygen / Hydrogen Electrolytic Gas Generation Apparatus
氧/氢电解气体制造装置
6.
Hydrogen Generation from Methanol Decomposition with Corona Discharge and Its Modeling Study;
电晕放电甲醇分解制氢及其模拟研究
7.
Design and Simulation of Full Digital Power Control System for Hydrogen Manufacture by Electrolysi;
全数字电解水制氢电源控制系统的设计和仿真
8.
Development of Electrochemical Hydrogen Gas Sensors Based on PVDF Polymer Electrolyte;
PVDF聚合物电解质膜电化学氢气传感器的研制
9.
Preparation and co-Sintering of Electrolyte and Hydrogen Electrode via Tape Casting and Its Performances for SOEC
SOEC电解质与氢电极的流延制备、共烧结及性能
10.
Sodium Borohydride Hydrolysis Generate Hydrogen-the Small Proton Exchange Membrane Fuel Cell Integration Research
硼氢化钠水解制氢—小型质子交换膜燃料电池一体化研究
11.
THERMODYNAMIC ANALYSIS OF SOLAR HYDROGEN PRODUCTION WITH HIGH TEMPERATURE STEAM ELECTROLYSIS
太阳能高温电解水蒸气制氢系统热力学分析
12.
Determination of the copper in copper-arsenic alloy by the electrolytic gravimetric method in control of hydrogen peroxide
用过氧化氢控制电解测定砷铜合金中的铜
13.
electrolytic hydrodimerization of acrylonitrile
丙烯腈电解法临氢二聚
14.
reduce water(ie to hydrogen)by electrolysis
用电解法把水还原(为氢)
15.
USES: As raw material in making La-MET, also in La-H battery as petroleum catalysts.
用途:做电解制取金属的材料,还可以在镧-—氢电池上,做石油催化剂。
16.
Technology of Photoelectrochemical Cells Hydrogen Production from Decomposition Water Using Solar Energy and Status of Research;
太阳能光电化学电池分解水制氢技术及其研究发展
17.
Preparation of Glass-Ceramics as Sealants of SOEC Stack for Producing Hydrogen by Electrolyzing Vapor at High Temperature
高温电解水蒸气制氢用SOEC微晶玻璃密封材料制备
18.
Effect of PID Parameter Change on Electrolytic Tanks Temperature and Hydrogen-generator Control System
PID参数变化对电解槽温度及制氢控制系统的影响