Ozone is produced by the reaction between oxygen and ultraviolet light.
臭氧是氧气与紫外线发生化学反应而产生的。
Objective To study and to determine the structure of alkene by the ozone oxidation of alkene and its hydrolysis reaction course.
目的通过烯烃的臭氧化及其水解的反应历程,研究和测定烯烃的结构。
Ozone is produced by the reaction between oxygen and ultra-violet light.
臭氧由氧气和紫外线发生反应而产生。
The reaction of ozone destruction is the chain reaction.
破坏臭氧的反应是链反应。
Ozone is produced by the reaction between oxygen and ultra -violet light.
臭氧由氧气和紫外线发生反应而产生。
Effects of reaction time, ozone concentration and reaction temperature on oxidation of HDPE were studied.
研究了反应时间、臭氧浓度和反应温度对HDPE氧化程度的影响。
Ozone is produced by the reaction between oxygen and ultra - violet light.
臭氧由氧气和紫外线发生反应而产生。
Conclusion the form of the alkene ozone oxide and its reaction course of ozone chain isomerization are likely to be the free radical ones.
结论烯烃臭氧化物的形成及其臭氧链异构的反应历程,属游离基型的可能性更大。
The comparison of two channels of the reaction of singlet carbene with ozone indicates that channel 2 is not only strongly spontaneous but also easy to take place kinetically.
对于单态卡宾与臭氧的两条反应通道,通道2不仅具有很强的自发性,而且在动力学上更易进行。
Controlling reaction conditions for acid and ozone concentration, to ignore the effects of · OH by adding the tert-butanol in acid solution.
控制反应条件为酸性和臭氧浓度恒定,再在酸性溶液中添加叔丁醇,以忽略自由基的影响。
This review provides many kinds of adsorbed ozone forms on the catalyst surface and the kinetics and mechanism of ozone decomposition reaction.
本文介绍了催化分解臭氧过程中,臭氧在催化剂表面的吸附形态,及各种条件下的反应下臭氧催化分解的动力学和机理。
The results show that there are two different pathways for the reaction of NH2 radicals with ozone. One of them has very low activation energy, so it happens easily.
结果表明,NH2自由基与臭氧反应有两条反应通道,其中一条反应活化能很小,反应极易发生。
The experiment was carried on the waste liquid of molasses alcohol by the way of ozone oxidation and found out that reaction mechanism was free radical reaction under alkaline condition.
利用臭氧氧化法处理糖蜜酒精废液,碱性条件下其反应机理属于自由基型反应。
In this paper, the protection measures of carbohydrate during pulp TCF bleaching, such as oxygen, ozone, peroxide, peracid and photochemistry reaction of bleaching, were summarized respectively.
本文综述了纸浆的氧气漂白、臭氧漂白、过氧化氢漂白、光催化漂白、过氧酸漂白中碳水化合物的保护措施。
The destruction of ozone molecules in the ozone layer by chemical reaction with materials released from human activities, including chlorofluorocarbons and halons.
从人类活动中释放出来的物质(包括氟氯烃和卤代烷哈龙)同臭氧层中的臭氧分子发生化学变化,导致其破坏。
Currently, the main treatment of PCP includes: biological method, fenton reaction photochemical method, electrodeposition, ozone treatment, ultrasonic, metallocene catalysts.
目前,对PCP的主要处理方法是:生物方法、芬顿试剂法、光化学、电化学、臭氧处理、超声波及金属催化氧化等处理方法。
The results show that, compared to reaction channel II, reaction channel I of the reaction between active free radical NH and ozone O3 is not only spontaneous but also easy to take place kinetically.
计算表明,相对于反应通道II,反应通道I不仅有很强的反应自发性,而且在动力学上也是较容易实现的反应。
The results show that, compared to reaction channel II, reaction channel I of the reaction between active free radical NH and ozone O3 is not only spontaneous but also easy to take place kinetically.
计算表明,相对于反应通道II,反应通道I不仅有很强的反应自发性,而且在动力学上也是较容易实现的反应。
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