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太阳光度计反演气溶胶参数的方法比较 总被引:2,自引:0,他引:2
气溶胶光学厚度(AOD)、一次散射反射比(ω_0)、粒子谱分布和散射相函数是表征气溶胶光学微物理特征的重要参数。利用CE318太阳光度计的直接测量数据与平纬圈测量数据基于Skyrad.pack算法可以用于反演这些气溶胶参数。结合光度计标定结果以及针对观测数据的严格去云方案和质量控制措施,利用该算法对几种不同的大气混浊度状况计算了上述气溶胶参数。计算结果与基于Dubovik算法的AERONET业务产品进行了比较,发现两种方法得到的结果大部分比较一致。虽然在大气混浊度较小的情况,Skyrad反演的ω_0和谱分布中的小粒子体积浓度与Dubovik结果相比有很大差异,同时Skyrad的计算误差较大,说明在实际AOD较小时,Skyrad算法的稳定性较低,但其反演结果依然能够在一定程度上表征气溶胶的光学特征。基本分析表明,基于Skyrad.pack算法的等天顶角观测反演结果在一定的大气混浊度和合适的太阳天顶角条件下是合理的,能够用于未纳入AERONET体系的光度计观测的气溶胶光学微物理参数研究。 相似文献
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陆地上空标量辐射对地表反射率和大气气溶胶散射都具有很强的敏感性, 而偏振反射只对大气气溶胶敏感, 对地表不敏感.根据这个原理并结合POLDER (POLarization and Directionality of Earth Reflectance) 资料的特点, 作者提出综合利用标量辐射和偏振反射信息来实现陆地上空大气气溶胶和地表反照率的同时反演.首先, 利用多角度偏振辐射观测提取大气气溶胶光学参数, 再利用标量辐射测量对偏振反演结果作进一步筛选和订正, 同时获得地表反射率.数值模拟试验结果证明, 仅利用偏振信息只能获取大气气溶胶信息, 而且其结果误差较大, 特别是对于散射作用较强的短波长通道如670 nm误差更大, 但经过标量辐射订正后的结果得到明显改善, 气溶胶光学厚度和地表反射率与真实值之间相关系数都达到0.99以上.为提高查找表的计算效率, 提出并建立了反演方案所需要的半参数化数值表, 利用内插方法寻求气溶胶光学厚度和地表反射率的数值解的反演方法. 相似文献
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陆地上空标量辐射对地表反射率和大气气溶胶散射都具有很强的敏感性,而偏振反射只对大气气溶胶敏感,对地表不敏感。根据这个原理并结合POLDER(POLarization and Directionality of Earth Reflectance)资料的特点,作者提出综合利用标量辐射和偏振反射信息来实现陆地上空大气气溶胶和地表反照率的同时反演。首先,利用多角度偏振辐射观测提取大气气溶胶光学参数,再利用标量辐射测量对偏振反演结果作进一步筛选和订正,同时获得地表反射率。数值模拟试验结果证明,仅利用偏振信息只能获取大气气溶胶信息,而且其结果误差较大,特别是对于散射作用较强的短波长通道如670 nm误差更大,但经过标量辐射订正后的结果得到明显改善,气溶胶光学厚度和地表反射率与真实值之间相关系数都达到0.99以上。为提高查找表的计算效率,提出并建立了反演方案所需要的半参数化数值表,利用内插方法寻求气溶胶光学厚度和地表反射率的数值解的反演方法。 相似文献
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利用地面激光雷达、太阳光度计观测反演气溶胶光学特性参数,结合PM2.5观测数据,分析了2018年1月25—28日北京一次完整污染过程中气溶胶光学特性变化。基于观测数据,利用短波辐射传输模式计算了不同程度污染日,晴空背景下气溶胶对辐射加热率的改变程度。结果表明:清洁日(25日),PM2.5日平均质量浓度为19.00 μg·m-3,440 nm气溶胶光学厚度为0.13,单次散射反照率为0.87,整层气溶胶消光系数低于0.10 km-1,短波辐射均为增温效应;污染期间(26—27日),PM2.5日平均质量浓度为83.21 μg·m-3,气溶胶光学厚度为2.48,气溶胶散射能力增强,单次散射反照率达到0.94,气溶胶主要消光层厚度提升至3.00 km高度,消光系数平均值为0.43 km-1,气溶胶在垂直方向的变化导致气溶胶中上层(1.50~3.00 km高度)加热作用强烈,短波辐射加热率平均值达到13.89 K·d-1,而低层(1.50 km高度以内)加热作用较弱,加热率平均值仅为0.99 K·d-1。气溶胶散射能力增强导致加热作用减弱,污染日加热率对于气溶胶散射能力变化更敏感。 相似文献
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本文利用成都2017年6~8月的米散射微脉冲激光雷达观测数据,对成都夏季气溶胶消光系数、边界层高度以及气溶胶光学厚度进行了反演,并结合太阳光度计观测资料、地面颗粒物浓度以及大气能见度数据研究了气溶胶消光系数日变化与月变化规律,气溶胶消光系数的垂直分布特征及影响因素。结果表明:气溶胶消光系数的日变化受人类活动以及边界层日变化影响显著,表现出凌晨与傍晚最大,早晨次之,午后最小的特征。消光高值出现在200m以下和300~700m的高度区间,夜间观察到的消光高值可能与颗粒物在夜间近地面浓度较高以及本地夜间降水频发有关。激光雷达反演的消光系数与光度计反演的气溶胶光学厚度在夏季各月的表现一致,夏季各月消光极值均出现在100~150m的近地面层。近地面消光系数与地面颗粒物浓度之间具有较好的正相关,并且粒子粒径更小时相关性更好。气溶胶光学厚度主要来自低层大气的贡献,0.1~0.2μm的细粒子气溶胶占比对于大气消光有主要影响,但气溶胶对大气的消光影响除了与粒子浓度有关,还与粒子的理化性质有关。 相似文献
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利用多角度POLDER偏振资料实现陆地上空大气气溶胶光学厚度和地表反照率的同时反演 II. 实例分析 总被引:1,自引:0,他引:1
由于陆地地表反照率的复杂性,陆地上空气溶胶的反演一直是卫星对地观测的一个难点,针对这个难点,作者提出联合利用偏振反射率和总反射率提取陆地上空大气气溶胶光学厚度和地表反照率及其区域分布的反演方案,提出了利用NCEP资料订正由海拔高度引起的Rayleigh散射变化的具体方法,并利用POLDER(POLarization and Directionality of Earth's Reflectance)的LEVEL-1B资料进行实际反演计算,给出中国华北地区气溶胶光学厚度和地表反照率的区域分布。反演结果与地基观测进行了对比验证分析,结果表明,综合利用标量辐射和偏振信息的可以实现区域乃至全球尺度的大气气溶胶和地表反照率的定量反演。 相似文献
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由大气顶射出太阳辐射的形式解出发,结合球形粒子的米散射理论,由反射太阳光谱推导获得了反演整层大气气溶胶粒子体积谱分布的权重函数。在权重函数特征分析的基础上,根据一个简单的线性反演算法,利用大气辐射传输计算模拟的大气顶反射太阳光谱,反演获得了不同气溶胶浓度和复折射率条件下的气溶胶粒子体积谱。结果表明,初步建立了一套自洽的大气气溶胶体积谱分布的反演方法。通过米散射计算获得的反演参数考虑了波长对粒子半径的权重特征,使气溶胶体积谱的反演具有了明确的物理依据;同目前常用的查算表方法相比,简化了反演方案中参数化的复杂程度。 相似文献
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微脉冲激光雷达及其应用研究进展 总被引:14,自引:0,他引:14
微脉冲激光雷达(MPL)对云和气溶胶的光学属性的空间分布提供连续自动的观测,该系统结构紧凑,发射能量对人眼安全,其可靠性已在国内外很多大型试验中得到了验证。文章介绍了微脉冲激光雷达的系统结构、工作原理以及较之传统激光雷达的优越性,给出了气溶胶光学属性的反演方法(斜率法、近端解法、远端解法和迭代求解法)并指出了其优缺点,对MPL在边界层、气溶胶观测等方面的应用研究成果做了简介。 相似文献
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Lidar has been used extensively in the area of atmospheric aerosol measurement. Two unknowns at the reference altitude, the lidar ratio and the backscatter coefficient, need to be resolved from the lidar equation. In the actual application, these two values are difficult to obtain, particularly the backscatter coefficient. To better characterize the optical properties of aerosols, optical thickness, and attenuated backscatter obtained by other instruments are usually used as the input for joint inversion. However, this method is limited by location and time. In this study, the authors propose a new method for aerosol retrieval by using Mie scatter- ing lidar data to solve this problem. The authors take the horizontal aerosol extinction coefficient as the con- straint to begin the iteration until a self-consistent aerosol vertical profile was obtained. By comparing their results with Aerosol Robotic Network (AERONET) data, the authours determine that the aerosol extinction coefficient obtained by combining horizontal and vertical lidar observations is more pre- cise than that obtained by using the traditional Fernald method. This new method has been adopted for re- trieving the extinction coefficient of aerosols during the observation days. 相似文献
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Lidar methods for observing mineral dust aerosols are reviewed.These methods include Mie scattering lidars,polarization lidars,Raman scattering lidars,high-spectral-resolution lidars,and fluorescence lidars.Some of the lidar systems developed by the authors and the results of the observations and applications are introduced.The largest advantage of the lidar methods is that they can observe vertical distribution of aerosols continuously with high temporal and spatial resolutions.Networks of ground-based lidars provide useful data for understanding the distribution and movement of mineral dust and other aerosols.The lidar network data are actually used for validation and assimilation of dust transport models,which can evaluate emission,transport,and deposition of mineral dust.The lidar methods are also useful for measuring the optical characteristics of aerosols that are essential to assess the radiative effects of aerosols.Evolution of the lidar data analysis methods for aerosol characterization is also reviewed.Observations from space and ground-based networks are two important approaches with the lidar methods in the studies of the effects of mineral dust and other aerosols on climate and the environment.Directions of the researches with lidar methods in the near future are discussed. 相似文献
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利用2018年10月—2019年9月天空辐射计观测数据反演北京城区气溶胶光学特性参数,重点分析污染过程中气溶胶光学特性与气象条件的相关性。结果表明:500 nm气溶胶光学厚度在2—7月较大,最高值出现在6月,为0.71。单次散射反照率最高值出现在8月,为0.96;最低值出现在5月,为0.89。440~870 nm ?ngstr?m波长指数最高值出现在夏季,为1.11;最低值出现在春季,为0.89。统计发现污染日数仅占总日数的17%,其中62%为轻度污染;污染和清洁天气条件下PM2.5浓度分别为107.22 μg·m-3和47.16 μg·m-3,500 nm气溶胶光学厚度分别为0.85和0.49,单次散射反照率分别为0.96和0.92;冬季?ngstr?m波长指数在污染天气条件下(1.02)大于清洁天气(0.91),春季相反。结合天空辐射计、激光雷达和气象数据分析2019年1月一次污染事件,可知低风速与高湿度等不利气象条件、气溶胶粒子的吸湿增长和二次转化、污染物局地排放及区域输送共同导致污染事件发生。 相似文献
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激光遥测大气气溶胶的尺度谱分布 总被引:3,自引:0,他引:3
在采用Deirmendjian气溶胶谱分布模式条件下,利用多波长激光雷达所探测的气溶胶消光系数,通过与Mie散射理论计算的气溶胶消光系数拟合的方法,可获得气溶胶的尺度谱分布。 相似文献
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《Atmospheric Research》2005,73(3-4):173-201
We summarise the microphysical and optical parameters of some principal aerosol species obtained by instrumentation on the UK Met Office C-130 aircraft during international field campaigns since 1996. The aerosol species include Saharan dust, biomass burning aerosol, European continental pollution, eastern seaboard USA pollution, and clean maritime aerosol. The typical structure of the aerosol in the vertical from each airmass type is described. Microphysical parameters are described that comprise the mode radius and geometric standard deviation associated with 2–3 lognormal fits to the mean observed aerosol size distributions spanning the accumulation and coarse modes. Optical parameters comprising the aerosol single scattering albedo (which was both measured and derived from Mie theory), specific extinction coefficient, and asymmetry factor (which were derived from Mie theory) are also presented. Where available, evolution of the physical and optical properties of the aerosol has been highlighted. Comparisons with long-term ground-based AERONET aerosol retrievals show reasonable agreement. Our observations provide useful data for validating and improving global circulation models (GCMs) that use physically based aerosol representation and for validating satellite retrievals of the physical and optical properties of aerosols. 相似文献
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In this paper, characterization of cirrus clouds are made by using data from ground based polarization lidar and radiosonde measurements over Chung-Li (24.58°N, 121.10°E), Taiwan for a period of 1999–2006. During this period, the occurrence of cirrus clouds is about 37% of the total measurement nights over the lidar site. Analysis of the measurement gives the statistical characteristics about the macrophysical properties such as occurrence height, ambient temperature, and its geometrical thickness while the microphysical properties are interpreted in terms of extinction coefficient, optical depth, effective lidar ratio and depolarization ratio. The effective lidar ratio has been retrieved by using the simulation technique of backscattered lidar signals. The effect of multiple scattering has been taken into the account by a model calculation. Summer (Jun–Aug) shows the maximum appearances of cirrus due to its formation mechanism. It is shown that tropopause cirrus clouds may occur with a probability of about 24%. These clouds are usually optically thin and having laminar in structure with some cases resembling the characteristics similar to that of polar stratospheric clouds (PSCs). The radiative properties of the cirrus clouds are also discussed in detail by the empirical equations with results show a positive feedback on any climate change. 相似文献
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Qiu Jinhuan 《大气科学进展》1995,12(2):177-186
Two-wavelengthLidarMeasurementofCloud-aerosolOpticalPropertiesQiuJinhuan(邱金桓)(InshtuteofAtmosphericPhysics,ChineseAcademyofSc... 相似文献