1) ozone depletion
臭氧损耗
1.
It has become a public concern that ozone depletion in the stratosphere would lead to increasing ultraviolet radiation on the surface.
最近几年,平流层臭氧损耗能否对对流层大气环流和气候产生重要影响也引起了广泛的重视,并且已成为大气科学的一个热点问题。
2.
To clarify the mechanism of stratospheric ozone depletion, scientists have strengthened the research of stratospheric ozone depletion chemistry.
因此,研究溴对于臭氧损耗的影响有重要的意义。
3.
Reactive halogen species are important components in the atmosphere,which can participate in many atmospheric chemical processes,play important role in the ozone depletion,affect sources and sinks of many important compounds and the sulfur and mercury cycle of atmosphere as well.
本文总结了近年来活性卤素化学实验和理论的研究进展,重点介绍了活性卤素在臭氧损耗中的作用及其大气循环反应过程;综述了重要活性卤素物种的产生和探测、活性卤素光化学反应和非均相反应实验研究;总结了近年来关于活性卤素化学的理论研究,包括活性卤素与水、硫、HO、HO2、烷基氧和烷基过氧自由基、氮氧化物、汞及其它物种的耦合研究。
2) stratospheric ozone depletion
臭氧层损耗
1.
Latest researches regarding the impacts of stratospheric ozone depletion on tropospheric air quality and show that enhanced photochemical processes could be observed in relatively clean regions but the impacts are often shadowed by anthropogenic emissions and other factors in contaminated regions and the final impacts are highly correlated with many interactions.
近年来有关平流层臭氧损耗影响低层大气质量的研究表明 ,在污染相对轻的地方 ,可以观测到加强的光化学反应过程 ;在污染地区 ,最终的影响与大气中存在的痕量物质间的相互作用有很大关系 ,这些通常会被人为排放带来的影响所掩盖 ;越来越多的证据表明 ,臭氧层损耗与气候变化之间的相互作用是至关重要的涉及全球变化的问题 ,是今后活跃的科学研究领域。
3) ozone layer depletion
臭氧层耗损
1.
This paper analyzes the property of a few substitute refrigerant in central air conditioning system basedon the ozone layer depletion and the impact of global warming on the global climate, and discusses how to choosesubstitute refrigerant for the practical application.
根据大气臭氧层耗损和温室气体对全球气候变化的影响,分析了中央空调系统几种替代制冷剂的特性,探讨了在实际使用中如何进行替代制冷剂的选择。
4) ozone loss
臭氧损耗 OL
5) ozone photolysis
臭氧光解损耗
6) ozone depleting substances (ODS)
臭氧层损耗物质
补充资料:介质损耗角正切试验(见电容率与损耗因数试验)
介质损耗角正切试验(见电容率与损耗因数试验)
dielectric loss tangent test
)!eZh.sunhooJ一002匕engq一e sh一yon介质损耗角正切试验(dieleetri。1055 tangenttest)见电容率与损耗因数试验。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条