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In this paper the grid data of total ozone mapping spectrograph (TOMS) installed on Nimbus-7 satellite (1978 to 1994) was used and the spatial and temporal distribution of total ozone over China was analyzed. The research indicates that the Qinghai-Tibet Plateau destroyed the latitudinal distribution of total ozone of China and the low value closed center emerged over Qinghai-Tibet Plateau. Long time change trends of seasonal total ozone of Qinghai-Tibet plateau are provided. It shows that the most obvious decrease of total ozone occurs in winter (Jan.), then in summer (Jul.), the relevant slow change occurs in autumn (Oct.) and spring (Apr.). 相似文献
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In this paper the grid data of total ozone mapping spectrograph (TOMS) installed on Nimbus 7 satellite (1978 to 1994) was used and the spatial and temporal distribution of total ozone over China was analyzed. The research indicates that the Qinghai Tibet Plateau destroyed the latitudinal distribution of total ozone of China and the low value closed center emerged over Qinghai Tibet Plateau. Long time change trends of seasonal total ozone of Qinghai Tibet Plateau are provided. It shows that the most obvious decrease of total ozone occurs in winter (Jan.), then in summer (Jul.), the relevant slow change occurs in autumn (Oct.) and spring (Apr.). 相似文献
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1961—2014年中国干燥度指数的时空变化研究 总被引:1,自引:1,他引:0
论文采用中国1961—2014年530个气象站数据,运用FAO-56 Penman-Monteith公式计算潜在蒸散发量,并结合降水量计算中国1961—2014年干燥度指数(Aridity index,AI),然后采用Mann-Kendall趋势检验、突变检验和小波分析对其进行时空变化分析。结果表明:1)1961—2014年中国整体、西北地区、青藏地区的干燥度指数均呈显著减小趋势,而南方地区干燥度指数呈微弱减小趋势,北方地区干燥度指数呈不显著增加趋势。中国干燥度指数的突变发生于1986年,而各个分区的突变时间有所差异。2)1961—2014年中国整体、北方地区和西北地区干燥度指数变化主周期均为28 a,南方地区稍晚1 a,青藏地区提前2 a,所有地区均在主周期上经历了变大—变小—变大的过程。同时所有地区也存在不同时间尺度的次周期变化。3)整个中国、西北地区和南方地区潜在蒸散发量的减少和降水量的增加,共同引起了干燥度指数的减小。在北方地区,年降水量的显著减小和潜在蒸散发减小引起干燥度指数呈现微弱增加趋势。在青藏地区,潜在蒸散发的微弱增加和降水量显著增加引起干燥度指数呈现显著减小趋势。4)中国干燥度指数在空间格局上和降水的分布相反,呈现出西北大、东南小的特征。北方地区整体干燥度指数偏小,但中部区域降水相对减少,蒸发能力增强,导致干燥度指数相对偏大。南方地区气温较高,蒸发能力强,但雨量充沛,是我国干燥度指数最小的区域。西北地区较为干燥,降水少,蒸发强,是我国干燥度指数最大的区域。青藏地区由于青藏高原的阻挡作用以及东部地区较为丰富的降水量,使得干燥度指数由东向西逐渐增加,呈现西干东湿的格局。 相似文献
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Gao Qing xian Ren Zhen hai Institute of Atmospheric Physics Chinese Academy of Sciences Beijing China. E mail: gaoqx@public.east.cn.net Zhang Yun gang Center of Satellite Meteorology Beijing China Zhang Cheng chang Beijin 《环境科学学报(英文版)》1999,(3)
1 IntroductionOzoneisoneofthetracegasesinatmosphere.Itcanabsorbnearlyallsolarultravioletradiation(UVB)rangedfrom0-20—0-35μm.Thechangeofstratosphericozoneconcentrationanditsverticalstructurewillinfluencethetemperaturestructureofstratosphere.Thedecrea… 相似文献
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利用EP/TOMS遥感资料分析我国上空沙尘天气过程 总被引:6,自引:1,他引:5
利用EP/TOMS卫星遥感资料,并结合地面气象观测记录,分析了影响我国典型沙尘暴天气的发生、发展和传输过程.定义了使用EP/TOMS气溶胶指数定量描述沙尘天气强度的指标体系,并对1998年3-4月间发生的沙尘天气的强度及其演变进行了详细的分析.结果表明:利用EP/TOMS 气溶胶指数并结合气象观测资料,可以对大规模的沙尘天气进行及时判别、监视,并预报影响范围及传输路径;同时,利用TOMS气溶胶指数建立起来的指标体系可以半定量化地描述沙尘暴天气的强度和影响范围. 相似文献
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TOMS/Al data with nearly 20 years are utilized in the paper to evaluate dust activities in North China. Combined with simultaneous NCEP reanalysis climate data, climate effects on dust activities are assessed. The results showed that the whole North China suffers impact by dust aerosols, with three centers standing out in TOMS/Al spring average map that are western three basins, which are characterized by lower annual precipitation and elevation. Gobi deserts in Mongolia Plateau do not attain higher TOMS/AI value due to cloud contamination and relative higher elevation. Spring is the season with the highest TOMS dust aerosol index; within the western three basins, high dust aerosol index appears in both spring and summer, especially in Tarim Basin. Wind speed in spring and precipitation in previous rainy season play important roles in controlling dust activities, higher wind speed and less precipitation than the normal are in favor of dust activities in spring. Temperature in spring and previous winter also affect dust activity to a certain extent, but with contrary spatial distribution. Temperature in winter exert effect principally in west part, contrarily, temperature effect in spring is mainly shown in east part. Both of them have negative correlation with dust activity. 相似文献
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采用O3/H2O2高级氧化工艺处理炼油厂反渗透(RO)浓水,用溶气泵加压溶气并产生微气泡强化传质,确定装置运行条件,考察气体中臭氧浓度、O3/H2O2初始摩尔比、pH和温度对O3/H2O2处理RO浓水效果的影响,并对RO浓水处理效能进行研究。结果表明,随着气体中臭氧浓度的增加,COD的去除率基本呈线性增加;加入适当量H,0,能提高臭氧氧化RO浓水的效果,O3/H2O2初始摩尔比在0~0.8范围内,COD的去除率先增加后下降,O3/H2O2初始摩尔比为O.5时COD去除率最大;pH从6.84增加到9.01,COD去除率逐渐增大,pH为10.03时COD去除率反而降低;在14~28℃范围内,温度低时,升高温度COD去除率增加较大,温度较高时,升高温度对COD去除率的影响较小。为考察该工艺的稳定性,在H:0:/0,初始摩尔比为O.5、溶液pH为8~9、臭氧浓度为80~100mg/L、温度为10-28℃条件下,对COD为90~140mg/L的RO浓水氧化处理4~10h,出水COD维持在39.9~49.9mg/L,达到《城镇污水处理厂污染物排放标准(GB18918—2002)》中的一级A标准;去除1gCOD消耗031.4~3.3g,消耗0,与H,02的总氧量为2.2~4.4g。 相似文献
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以某一比对样品中总α/β放射性的测量过程为例,叙述了样品预处理、上机测量及参数确定的方法,并结合实践,对工作中需要注意的问题进行了探讨。 相似文献