1.
Application of Risk Management in Oxygen-Hydrogen Generator YJ-12500 Development Project;
风险管理在YJ-12500型水电解氢氧发生器研发项目中的应用
2.
Study on Amperamatric Hydrogen Peroxide Biosensor;
电流型过氧化氢生物传感器的构建及研究
3.
Water can be reduced to oxygen and hydrogen by electrolysis.
用电解法可以把水分解为氢和氧。
4.
Oxygen and hydrogen are released from the water which is reduced by electrolysis.
氧气和氢气从电解水中被释放出来。
5.
The Research on the Power Diagnosetic of Ozone Producer Discharge and Dissociation of Residual Ozone Gas;
臭氧发生器放电功率诊断及剩余臭氧分解研究
6.
Hydrolytic Kinetics Model of Anaerobic Bioreactor in Methane Fermentation Phase
厌氧型生物反应器产CH_4期水解动力学模型研究
7.
The Research on Medium Frequency Power Supply of Dielectric Barrier Discharge Ozone Generation;
中频DBD型臭氧发生器电源的研究
8.
Ultrafine Titanium Dioxide Manufactured by Aerosil Method
气相氢氧焰水解法生产超微细二氧化钛
9.
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
10.
Electrolytic Treatment Experiments of Ship s Ballast Water and the Selection of Generators;
船舶压载水电解处理试验及电解发生器的优选
11.
Power Supply Design for DBD-type Ozonizer with Phase Shifting Control
移相控制下DBD型臭氧发生器供电电源的设计
12.
We analyze water into oxygen and hydrogen
我们把水分解成氧和氢
13.
Water can be broken down into hydrogen and oxygen
水可以分解为氢和氧。
14.
Water can be decomposed into hydrogen and oxygen
水能分解成氢和氧。
15.
Water can be resolved [decomposed] into hydrogen and oxygen.
水可分解为氢和氧。
16.
Water may be resolved into oxygen and hydrogen.
水可以分解成氧和氢。
17.
Analyse water into oxygen and hydrogen.
把水分解成氧和氢。
18.
An Equivalent Model of Dielectric-Barrier Discharge Type Ozonizer
介质阻挡放电型臭氧发生器的一种等效模型