排序方式: 共有80条查询结果,搜索用时 31 毫秒
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在给出霾的定义、特征及空间分布的基础上,介绍了霾的物理学特性、化学特性及气象学研究的最新进展,分析了霾对公共卫生健康、交通安全的影响, 提出了科学编制防御规划、统筹建立协调机制、有效推进减霾行动、提供相应科技支撑、完善相关政策法规等对策建议,对于政府相关部门制定霾天气应对和防治措施具有积极的决策参考作用,减少或减轻霾对经济社会发展和人体健康带来的损害威胁。 相似文献
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辽宁中部城市灰霾天气数值模拟 总被引:4,自引:0,他引:4
应用NCEP/NCAR再分析资料和MM5模拟分析了2010年冬季辽宁中部城市最严重灰霾天气时天气系统特征。应用CALPUFF模拟灰霾天气和2010年冬季沈阳、辽阳、本溪日平均PM10浓度分布。结果表明:500 hPa位势高度场,辽宁处于弱暖脊的位置。850 hPa位势高度场辽宁受辐散、下沉气流的影响。地面风场上地面风向不一致,多受辐散气流影响。在垂直剖面风场,地面上方有明显的位涡高值上升区,高度较低。在地面至高空的温度廓线低空有明显的逆温、逆温层顶的高度较低。2010年12月19-21日沈阳、辽阳、本溪PM10浓度分布向偏东、西北、东南方向发散,主要受地面风向影响。整个冬季平均PM10浓度分布向偏南方向发散。 相似文献
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利用2007—2015年北京市大兴观象台、28个道面自动气象站、部分区域自动气象站等多种台站观测资料分析了2007—2015年北京地区能见度的时空变化特征。结果表明:2007—2015年北京地区春季平均能见度最高、夏季平均能见度最低,夏季及年平均能见度呈显著增加的趋势,春季和秋季能见度均呈波动增加,冬季颗粒物浓度的显著增加致使北京地区冬季能见度下降的时段集中在2011—2014年;空间上,北京西北地区能见度明显高于中心城区和东南大部地区。秋季和冬季能见度的空间分布特征与年平均能见度的分布特征较一致,表现为能见度自西北向东南方向逐渐递减;与能见度相关性最高的为相对湿度、颗粒物浓度、风向及风速,但不同要素在月、季和年尺度上的相关性差别较大;根据天气现象统计表明,近10 a来北京地区雾、霾、沙尘日均呈增加的趋势,但是山区与城区气象站点低能见度事件的发生频次存在较大的差异。整体来看,小于10 km能见度事件的发生频次在全区以增加为主,而小于1 km能见度事件的发生频次在全区以减少为主。此外,近10 a来北京地区干霾的发生频率为44. 29%,湿霾的发生频率为7. 13%,低能见度事件多由干霾造成,但湿霾发生时,能见度恶化的更明显。 相似文献
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Hiroshi Imanaka Bishun N. Khare Emma L.O. Bakes Dale P. Cruikshank Takafumi Matsui 《Icarus》2004,168(2):344-366
Titan, the largest satellite of Saturn, has a thick nitrogen/methane atmosphere with a thick global organic haze. A laboratory analogue of Titan's haze, called tholin, was formed in an inductively coupled plasma from nitrogen/methane=90/10 gas mixture at various pressures ranging from 13 to 2300 Pa. Chemical and optical properties of the resulting tholin depend on the deposition pressure in cold plasma. Structural analyses by IR and UV/VIS spectroscopy, microprobe laser desorption/ionization mass spectrometry, and Raman spectroscopy suggest that larger amounts of aromatic ring structures with larger cluster size are formed at lower pressures (13 and 26 Pa) than at higher pressures (160 and 2300 Pa). Nitrogen is more likely to incorporate into carbon networks in tholins formed at lower pressures, while nitrogen is bonded as terminal groups at higher pressures. Elemental analysis reveals that the carbon/nitrogen ratio in tholins increases from 1.5-2 at lower pressures to 3 at 2300 Pa. The increase in the aromatic compounds and the decrease in C/N ratio in tholin formed at low pressures indicate the presence of the nitrogen-containing polycyclic aromatic compounds in tholin formed at low pressures. Tholin formed at high pressure (2300 Pa) consists of a polymer-like branched chain structure terminated with CH3, NH2, and CN with few aromatic compounds. Reddish-brown tholin films formed at low pressures (13-26 Pa) shows stronger absorptions (almost 10 times larger k-value) in the UV/VIS range than the yellowish tholin films formed at high pressures (160 and 2300 Pa). The tholins formed at low pressures may be better representations of Titan's haze than those formed at high pressures, because the optical properties of tholin formed at low pressures agree well with that of Khare et al. (1984a, Icarus 60, 127-137), which have been shown to account for Titan's observed geometric albedo. Thus, the nitrogen-containing polycyclic aromatic compounds we find in tholin formed at low pressure may be present in Titan's haze. These aromatic compounds may have a significant influence on the thermal structure and complex organic chemistry in Titan's atmosphere, because they are efficient absorbers of UV radiation and efficient charge exchange intermediaries. Our results also indicate that the haze layers at various altitudes might have different chemical and optical properties. 相似文献
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We have developed a coupled general circulation model of Titan's atmosphere in which the aerosol haze is treated with a microphysical model and is advected by the winds. The radiative transfer accounts for the non uniform haze distribution and, in turn, drives the dynamics. We analyze the GCM results, especially focusing on the difference between a uniform haze layer and a haze layer coupled to the dynamics. In the coupled simulation the aerosols tend to accumulate at the poles, at latitudes higher than ±60°. During winter, aerosols strongly radiate at thermal infrared wavelengths enhancing the cooling rate near the pole. Since this tends to increase the latitudinal gradients of temperature the direct effect of this cooling excess, in contrast to the uncoupled haze case, is to increase the strength of the meridional cells as well as the strength of the zonal winds and profile. This is a positive feedback of the haze on dynamics. The coupled model reproduces observations about the state of the atmosphere better than the uniform haze model, and in addition, the northern polar hood and the detached haze are qualitatively reproduced. 相似文献
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Public concerns about environmental problems create narrative structures that influence policy by allocating roles of blame, responsibility, and appropriate behavior. This paper presents an analysis of public concerns about transboundary haze resulting from forest fires in Indonesia, Singapore, and Malaysia for crises experienced in 1997, 2005 and 2013. The source of the information is content analysis of 2231 articles from representative newspapers in each country. The study shows that newspaper reporting about haze has changed from a discussion of the potential health and economic impacts of fires resulting partly naturally from El Niño-induced droughts, toward an increasing vilification of Indonesia for not ratifying the 2002 Association of South East Asian Nations (ASEAN) Agreement on Transboundary Haze Pollution; plus criticism of Singaporean and Malaysian companies investing in palm oil plantations, and ASEAN. Attention to climate change and potential biodiversity loss linked to haze, however, remains low. The paper argues that newspaper analysis of public concerns, despite political influences on the press, offers insights into how public criticism is voiced in these countries, and how perceived responsibility for action is changing. 相似文献
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2009年秋季南京地区一次持续性灰霾天气过程研究 总被引:10,自引:3,他引:7
2009年10月14—27日,南京地区发生了一次持续性的灰霾天气过程。利用气象观测资料和污染物浓度监测资料,结合焚烧点监测、后向气流轨迹模拟,分析了颗粒物和气态污染物的浓度演变特征、气象要素特征及产生持续灰霾天气的可能原因。研究表明,该次过程中绝大部分时间能见度低于10 km,空气污染指数最大时达到195。地面PM2.5质量浓度有显著增长,在26日达到最大值为0.782 mg/m3。NO2质量浓度日均值在24日和27日超过了环境空气质量二级标准,其含量分别为0.094和0.099 mg/m3,对应NOx质量浓度分别为0.105和0.108 mg/m3。SO2质量浓度在22日达到峰值,最大值为0.161 mg/m3,平均值为0.083 mg/m3,低于环境空气质量二级标准。分析显示:近半个月内南京地区天气形势稳定,处于持续温度偏高、干燥无雨的状态,非常有利于灰霾天气的发生。卫星监测发现24、25、26日江淮之间中部均有火点,其中24日有50个着火点,25日增加为85个,26日减少为38个,表明有秸秆焚烧现象存在。从后向气流轨迹分析来看,在秸秆焚烧最为严重的3 d内,南京地区主要受到来自东到东北方向气流的影响,有利于秸秆焚烧形成的污染物经气流输送影响南京,造成严重灰霾天气。 相似文献
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