Then the electric field intensity of ozone generation was simulated and analyzed for the first time.
试验研究了峰值电压、气隙间距对臭氧产生的影响。
The generation and chemical process of ozonation by-products in drinking water advanced treatment were studied.
就给水深度处理中臭氧副产物的产生及其化学过程、控制臭氧副产物生成的技术措施等问题进行了探讨。
Theoretical and Experimental Research on Ozone Generation by Gas Discharge Plasma;
等离子体臭氧产生的实验与理论研究
Can disinfect 3 sickbeds at the with the large amount of ozone it produced.
臭氧产生量大,可同时对三张床进行消毒。
Experimental Study on Ozone Generation Using High-frequency Parallel Plates Dielectric Barrier Discharge
高频平板型介质阻挡放电臭氧产生的试验研究
Relationship between the capacity of ozone generator and ozone concentration accumulated in two types of cold storage rooms
臭氧发生器产量及冷库类型与臭氧积累量关系
Research on Operation of Ozonation and Biological Activated Carbon Treatment in Nanxing Water Treatment Plant;
南星水厂臭氧预处理及臭氧活性炭深度处理生产运行研究
Study on Formation of Catalytic Ozonation/Disinfection By-Products by Dynamic Experiment;
臭氧催化氧化过程中副产物生成规律研究
Laboratory, Pilot and Full Scale Investigations of Catalytic Ozonation for Upgrading Drinking Water Quality;
臭氧催化氧化除污染特性及其生产应用研究
Ozone generator, whose material is clear and oxygen, produces the ozone under high-press ure dischange ionization.
臭氧发生器是以洁净空气或氧气为原料,在高压下无声放电电离产生臭氧。
Ozone is formed in the stratosphere and mesosphere by photochemical processes.
由于光化过程,在平流层与中层内产生了臭氧。
Theoretical and Experimental Studies on Generating of High Concentration Ozone Gas;
高浓度臭氧气体产生的理论及实验研究
Application and Research of Ozone on Greenhouse Cucumber Production Without Pollution;
臭氧在温室黄瓜无公害生产上的应用研究
Experimental Research for Ozone Generation Using High Frequency Dielectric Barrier Discharge;
高频介质阻挡放电产生臭氧的实验研究
Application of Ozone in the Food Additive Industry
臭氧在食品添加剂生产关键控制点上的应用
Research on Characteristics of Ozone Cell Based on DBD
基于DBD的高产量臭氧发生管的特性研究
Even during the commissioning phase, ozone will be generated. Make sure that the process being served can handle the generated ozone and that any excess ozone can be effectively destroyed.
即使在调试过程中,也将产生臭氧,要确保工艺水能处理所产生的臭氧并且能有效破坏多余的臭氧。
China will contribute more to global efforts to protect the ozone layer by developing and producing substitutes for ozone depleting substances,
中国将开发和生产消耗臭氧物质(ODS)的替代品,从而为全球保护臭氧层的行动做出更多贡献。
Generation of Singlet Oxygen by Decomposition of Triphenyl Phosphite Ozonide;
亚磷酸三苯酯臭氧化合物分解产生单重态氧的研究
Low Molecular Weight Oxidation By-products Produced During Catalytic Ozonation with Ferric Hydroxide of NOM Fractions Isolated from Filtrated Water
FeOOH催化臭氧氧化滤后水中NOM的小分子副产物的生成