The transport and photochemical transformation of tropospheric ozone and carbon monoxide in East Asia was studied by using a three-dimensional global atmospheric chemistry transport model MOZART-2 with two different emission scenarios.
利用全球三维大气化学模式MOZART-2,采用2组不同的污染源数据对东亚地区对流层臭氧(O3)及一氧化碳(CO)体积分数的季节变化进行模拟。
Based on differential absorption principle, a laser radar has been developed for monitoring tropospheric ozone using Stokes output at 289 nm and XeCl laser output at 308 nm.
该波长与 Xe Cl准分子激光波长 30 8nm采用差分吸收方法 ,建立了用于对流层臭氧探测的激光雷达 ,并初步获得了对流层大气臭氧的垂直分布及其时间变化特征。
A coupling model of regional climate model and atmospheric chemistry model has been used to simulate increments of tropospheric ozone, radiation and climate effects of ozone which are caused by anthropogenic emission over China and the Indo-China Peninsula.
利用双向耦合的区域气候模式和大气化学模式系统,研究了中国与邻近地区人为污染排放引起对流层臭氧变化和产生的辐射强迫。
Based on the tropopause ozone data of ECMWF and the wind /pressure data of NCAR/NCEP during 1976~2001,three kinds of the East Asian monsoon index,the SMI,EAMI and EASMI,have been selected and calculated in this paper.
利用1976~2001年东亚地区的风场、气压场和对流层顶臭氧浓度观测资料,选取并计算了3种当前使用较为广泛的东亚季风指数,分析了夏季期间上述指数与对流层顶臭氧的相关,从而对东亚地区季风活动与对流层顶臭氧含量分布的关系进行了探讨。