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近年来对大气气溶胶的观测受到越来越多的重视。很多国家都利用对太阳光谱的观测来推算大气气溶胶,并且对计算气溶胶谱分布的反演方法也进行了很多理论上的分析。这里,我们介绍一种计算谱分布的简便方法及某些观测结果。一、方法从太阳直接辐射的测量可以算出大气总的光学厚度,在扣除空气分子的影响后,便得到大气气溶胶的光学厚度式中。n(r)——气溶胶谱分布 r——粒子半径Q_(ex)(r,λ,m)——削弱的有效因子 m——气溶胶折射率如果测出不同波长的大气气溶胶光学厚度,即可由(1)式反演出气溶胶谱分布。为了使反演过程简单化,引入以下两项假定: 相似文献
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CE318太阳光度计基本结构与安装使用 总被引:1,自引:0,他引:1
CE31 8自动跟踪太阳光度计是由法国CIMEL公司研制生产、用于气溶胶光学特性和大气质量监测的自动测量仪器 ,它不仅能自动跟踪太阳作太阳直射辐射测量 ,而且可以进行太阳等高度角天空扫描、太阳主平面扫描和极化通道天空扫描。CE31 8能自动存储测量数据 ,并可自动传输到计算机保存及发送。 CE31 8测得的直射太阳辐射数据可用来反演计算大气透过率、消光光学厚度、气溶胶光学厚度、大气水汽柱总量和臭氧总量。其天空扫描数据可以反演大气气溶胶粒子尺度谱分布及气溶胶相函数。 CE31 8可用于卫星遥感产品检验和气溶胶气候研究 ,在大气光… 相似文献
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天空辐射计观测2006年春季北京地区气溶胶光学特性的研究 总被引:2,自引:0,他引:2
利用2006年3~5月天空辐射计观测数据反演得到北京地区春季大气气溶胶光学性质参数,包括大气气溶胶光学厚度(0.5μm)、Angstrm指数、单次散射反射比和粒子谱分布特征。结果表明:北京地区春季气溶胶平均光学厚度0.67,Angstrm指数0.54,单次散射比0.88,粒子吸收性质较弱,粒子谱呈双峰形,以粗粒子为主,粗、细模态粒子粒径分别集中在0.17μm和7.7μm左右。相比2004年此次观测期间气溶胶粒径较大,粒子体积浓度较高,散射作用在其消光特性中的比重略有下降。光学厚度日变化呈单峰型,日间单次散射比随时间逐渐递减,Angstrm指数在上午递减趋势明显,午后变得稳定。对同时观测的天空辐射计与CE-318不同波长光学厚度结果进行比较,结果显示两者得到的光学厚度相关性很好,各波长小时平均结果的相对误差小于7%。 相似文献
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关于中国大气气溶胶光学厚度的一个参数化模式 总被引:16,自引:3,他引:16
应用中国 1 6个气象台站探测的 1 990年太阳宽带直射辐射信息 ,反演得到了这些台站大气气溶胶光学厚度资料 ,发展了一个应用地面气象能见度和水汽压信息确定大气柱气溶胶光学厚度的参数化模式 ,它比 Elterman模式更适合中国的广大地区。研究还发现 ,比较 Elter-man气溶胶粒子浓度垂直分布模式 ,中国许多地方气溶胶粒子浓度垂直衰减较慢。 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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2008年北京奥运会期间大气气溶胶物理特征分析 总被引:5,自引:0,他引:5
应用MODIS卫星的气溶胶产品资料和地面的光学粒子计数器的资料,对比分析了北京地区2006、2007、2008年7~9月的气溶胶光学厚度、细粒子光学厚度、Angstrom指数、气溶胶粒子数浓度谱及体积谱,发现2008年北京奥运会期间(7月20日~9月20日)的气溶胶光学厚度比2006、2007年同期明显降低,气溶胶细模态光学厚度占总光学厚度的比上升,Angstrom指数上升,气溶胶细粒子数浓度没有明显相对变化,而粗粒子数浓度则减少约50%.利用大气标高,将MODIS反演的气溶胶柱的质量浓度转化为地面气溶胶质量浓度.用粒子计数器得到的体积谱,在假定气溶胶粒子密度的情况下,计算出其质量浓度.将这两种方法得到的气溶胶质量浓度与国家环境保护部公布的空气质量指数换算得到的可吸入颗粒物(PM10)质量浓度进行比较.结果表明:北京奥运期间空气质量总体达到了国家二级空气质量标准;与2006、2007年同期相比,2008年气溶胶PM10质量浓度明显下降,而这主要是由气溶胶粗粒子的减少引起的. 相似文献
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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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本文提出了用宽带辐射资料回归内插求取大气光学厚度谱的方法。利用1966年和1968年珠穆朗玛峰地区科学考察期间得到的太阳直接辐射光谱资料,获得了该地区大气气溶胶光学厚度谱。最高观测站东绒布冰川(海拔6300m)波长在0.55 μm的气溶胶光学厚度春季平均为0.044±0.017,与南极地区有相似的量级,比内陆人口密集地区小一个数量级。由光学厚度谱反演出了珠峰地区的大气气溶胶的粒子谱分布特征,并与包括1986年中美西藏科学考察结果在内的诸多资料做了对比。研究表明,拉萨的大气气溶胶光学厚度在1966—1986的20年间平均约有1.8%的年增长率。 相似文献
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VARIABILITY OF AEROSOL OPTICAL PROPERTIES OVER HEFEI DURING SEPTEMBER 1993 TO SEPTEMBER 1994 总被引:7,自引:0,他引:7 下载免费PDF全文
An 8-wavelength sun-photometer has been operated at Hefei (31.31°N, 117.17°E) to monitoroptical properties of atmospheric aerosols. Altogether 133 solar spectral extinction data were ob-tained on clear days during the period from September 1993 through September 1994, In this pa-per, the feature of the sun-photometer is briefly described. A relative aureole method is intro-duced. which can be used to monitor temporal evolution of aerosol loading during the sun-pho-tometer calibration period. Temporal variabilities of spectral aerosol optical depths and Angstromturbidity parameters are presented. Relation of these variabilities with synoptic and local meteoro-logical conditions are analyzed and discussed, From measured spectral aerosol optical depths undersome representative atmospheric conditions, columnar aerosol size distributions have been retrievedby a linearly constrained inversion method. These typical columnar aerosol size distributions are al-so presented and discussed. 相似文献
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1999年6月28日~7月19日在敦煌场, 7月25日~7月31日在青海湖水面场进行了一次大规模综合野外测量试验, 其中采用3台先进的法国CIMEL太阳辐射计对两个场地大气光学特性进行了系统全面测量, 获得大量晴空天气条件下的大气光学数据。利用Langley法处理气溶胶通道数据得到气溶胶光学厚度及其光谱变化。测量结果显示550 nm波长平均气溶胶光学厚度分别为0.12、0.18, 由气溶胶光学厚度的波长变化得到气溶胶Junge参数分别为2.6、3.0, 并与几种典型气溶胶类型比较。结果表明两地在晴空天气里, 气溶胶含量较小, 符合遥感卫星传感器辐射定标的大气条件。 相似文献
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Summary The uncertainty in aerosol size distributions is a main source of errors in aerosol optical thickness determined from satellite
measurements. To reduce the errors resulting from the uncertainty in aerosol size distributions, we have performed sensitivity
analyses. It is found the errors resulting from the uncertainty in aerosol size distribution can be considerably reduced by
using the Junge power law to approximate the aerosol size distribution in an actual atmosphere, if the exponent value is determined
at the same time. An iterative algorithm is then developed for the simultaneous determination of aerosol optical thickness
and the exponent of the Junge power law over ocean areas from the upwelling radiances measured in AVHRR visible and near infrared
channels. A number of numerical experiments are carried out to investigate the validity of the Junge power law approximation
by assuming the aerosol size distributions in an actual atmosphere are bimodal with different mode parameters, and by using
the actual aerosol size distributions determined at several places by Kaufman et al. (1994). The results show that the errors
in determined aerosol optical thickness resulting from the Junge power law approach are significantly reduced. The iterative
algorithm is investigated further by comparing the aerosol optical thickness deduced from satellite measurement with that
observed by a sun photometer.
Received October 10, 2001 Revised December 28, 2001 相似文献
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Scattering Properties of Atmospheric Aerosols over Lanzhou City and Applications Using an Integrating Nephelometer 总被引:2,自引:0,他引:2
The data, measured by a three-wavelength Integrating Nephelometer over Lanzhou City during the winters of 2001/2002 and 2002/2003 respectively, have been analyzed for investigating the scattering properties of atmospheric aerosols and exploring their relationship and the status of air pollution. The aerosol particle volume distribution is inverted with the measured spectral scattering coefficients. The results show that the daily variation of the aerosol scattering coefficients is in a tri-peak shape. The average ratio of backscattering coefficient to total scattering coefficient at 550 nm is 0.158; there exists an excellent correlation between the scattering coefficients and the concentration of PM10. The average ratio of the concentration of PM10 to the scattering coefficients is 0.37 g m-2, which is contingent on the optical parameters of aerosol particles such as the size distribution, etc.; an algorithm is developed for inverting the volume distribution of aerosol particles by using the histogram and Monte-Carlo techniques, and the test results show that the inversion is reasonable. 相似文献
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The data, measured by a three-wavelength Integrating Nephelometer over Lanzhou City during the winters of 2001/2002 and 2002/2003 respectively, have been analyzed for investigating the scattering properties of atmospheric aerosols and exploring their relationship and the status of air pollution. The aerosol particle volume distribution is inverted with the measured spectral scattering coefficients. The results show that the daily variation of the aerosol scattering coefficients is in a tri-peak shape. The average ratio of backscattering coefficient to total scattering coefficient at 550 nm is 0.158; there exists an excellent correlation between the scattering coefficients and the concentration of PM10. The average ratio of the concentration of PM10 to the scattering coefficients is 0.37g m^-2, which is contingent on the optical parameters of aerosol particles such as the size distribution, etc.; an algorithm is developed for inverting the volume distribution of aerosol particles by using the histogram and Monte-Carlo techniques, and the test results show that the inversion is reasonable. 相似文献
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宽带消光法反演气溶胶光学厚度与AERONET北京站探测结果的对比研究 总被引:7,自引:3,他引:4
该文简要介绍了遥感气溶胶光学厚度的宽带消光法, 重点比较与分析了2001~2002年间北京地区宽带消光法和全球气溶胶探测网(AERONET)气溶胶光学厚度的探测结果.对比结果表明, 两类探测结果在无云晴天的条件下具有很好的吻合, 二者的相关系数达到90%以上.另外, 作者还针对宽带消光法反演月平均气溶胶光学厚度问题, 提出了一个减小云对反演结果影响的方法, 即月平均光学厚度约束法, 并与全球气溶胶探测网探测结果做对比分析.二者结果的一致性表明该约束方法的有效性. 相似文献
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Sun-photometer has been widely used to investigate various optical properties of the atmosphere.In order to derivean accurate atmospheric optical depth,great care in the sun-photometer calibration is required.In this paper,the fea-ture of a new sun-photometer is described.Calibration results based on the Langley method at Mt.Huangshan are re-ported.Effect of the atmospheric instability on retrieving the calibration values is discussed and errors in calibration atMt.Huangshan due to temporal variation of aerosol concentration are estimated.It is shown that the calibratedsun-photometer can be used to derive the atmospheric optical depth to an accuracy of 5%.As one of its applications,examples of determination of turbidity parameters and columnar aerosol size distribution are presented. 相似文献
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R.T. Pinker G. Pandithurai B.N. Holben T.O. Keefer D. Goodrich 《Atmospheric Research》2004,71(4):243-252
Characterization of aerosol optical properties, such as aerosol optical depth, Angstrom exponent, and volume size distribution at the semiarid site of Tombstone Arizona (31°23′N, 110°05′W, 1408 m) will be presented for one annual cycle. In this region, extensive observations of selected optical parameters such as aerosol optical depth (AOD) have been made in the past and reported on in the literature. Less is known about other optical characteristics that are important in climate modeling and remote sensing. New observational techniques and inversion methods allow for the expansion of the earlier information. Observations have been taken with a state of the art sun photometer for a 1-year period and their analysis will be presented here. Monthly mean AODs at 500 nm were found to be in the range of 0.03–0.12; the monthly mean Angstrom exponent ranged from 0.9 to 1.6, being higher in spring and summer and lower in late fall and winter. Volume size distributions exhibit clear dominance of smaller particles, with a gradual increase in size from winter to spring and into summer. Annual variation of the radii of the smaller and the larger particles ranged between 0.05–0.4 and 4–8 μm, respectively. Radiance measurements at 940 nm were used to estimate precipitable water. The retrieved values compared within limits of uncertainty with independently derived estimates from the National Center for Environmental Prediction (NCEP) regional weather forecast model. An interesting outcome from this study was the consistency found in aerosol optical depths as observed in this study and those derived about two decades ago. 相似文献