光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
11期
2978-2983
,共6页
魏儒义%周锦松%张学敏%于涛%高晓惠%任小强
魏儒義%週錦鬆%張學敏%于濤%高曉惠%任小彊
위유의%주금송%장학민%우도%고효혜%임소강
大气红外光谱%浓度反演%比尔定律%仪器函数%反射转镜
大氣紅外光譜%濃度反縯%比爾定律%儀器函數%反射轉鏡
대기홍외광보%농도반연%비이정률%의기함수%반사전경
Infrared spectra of atmospheres%Concentration retrieving%Beer-lambert law%Instrument functions%Reflecting scan-ning mirror
对地球大气温室气体进行高精度的探测,是当今数值天气预报和气候与大气环境变化监测的发展需求。利用OP/FTIR测量法,将一台国内率先自行研制的中波红外反射转镜式干涉光谱仪,首次成功地用于地表大气CO2红外吸收光谱的测量。该反射转镜式干涉光谱仪的工作谱段为2100~3150 cm-1,光谱分辨率为2 cm-1。设计了大气成分探测方法,建立了大气浓度参数反演数理依据和定量分析算法。采用基于比尔定律的直接法和基于HITRAN数据库及仪器函数的仿真拟合法,建立了反演模型,并对CO2分子的浓度进行了反演。根据观测和模型分析,CO2的浓度反演结果在300~370 ppm ,呈现出随自然环境变化先缓慢降低再快速升高的趋势,并在下午至傍晚之间达到低值;同时,随时间的变化,用直接法计算的CO2浓度和用拟合法的仿真值表现出了良好的一致性,所有测量数据之间的相关性高达99.79%,相对误差不超过2.00%,达到了较高的反演精度。结果表明,在遥感测量大气成分方面,基于红外反射转镜式干涉光谱仪的OP/FTIR法是可行且有效的技术手段,直接法或拟合法皆可实现高精度的浓度反演。
對地毬大氣溫室氣體進行高精度的探測,是噹今數值天氣預報和氣候與大氣環境變化鑑測的髮展需求。利用OP/FTIR測量法,將一檯國內率先自行研製的中波紅外反射轉鏡式榦涉光譜儀,首次成功地用于地錶大氣CO2紅外吸收光譜的測量。該反射轉鏡式榦涉光譜儀的工作譜段為2100~3150 cm-1,光譜分辨率為2 cm-1。設計瞭大氣成分探測方法,建立瞭大氣濃度參數反縯數理依據和定量分析算法。採用基于比爾定律的直接法和基于HITRAN數據庫及儀器函數的倣真擬閤法,建立瞭反縯模型,併對CO2分子的濃度進行瞭反縯。根據觀測和模型分析,CO2的濃度反縯結果在300~370 ppm ,呈現齣隨自然環境變化先緩慢降低再快速升高的趨勢,併在下午至傍晚之間達到低值;同時,隨時間的變化,用直接法計算的CO2濃度和用擬閤法的倣真值錶現齣瞭良好的一緻性,所有測量數據之間的相關性高達99.79%,相對誤差不超過2.00%,達到瞭較高的反縯精度。結果錶明,在遙感測量大氣成分方麵,基于紅外反射轉鏡式榦涉光譜儀的OP/FTIR法是可行且有效的技術手段,直接法或擬閤法皆可實現高精度的濃度反縯。
대지구대기온실기체진행고정도적탐측,시당금수치천기예보화기후여대기배경변화감측적발전수구。이용OP/FTIR측량법,장일태국내솔선자행연제적중파홍외반사전경식간섭광보의,수차성공지용우지표대기CO2홍외흡수광보적측량。해반사전경식간섭광보의적공작보단위2100~3150 cm-1,광보분변솔위2 cm-1。설계료대기성분탐측방법,건립료대기농도삼수반연수리의거화정량분석산법。채용기우비이정률적직접법화기우HITRAN수거고급의기함수적방진의합법,건립료반연모형,병대CO2분자적농도진행료반연。근거관측화모형분석,CO2적농도반연결과재300~370 ppm ,정현출수자연배경변화선완만강저재쾌속승고적추세,병재하오지방만지간체도저치;동시,수시간적변화,용직접법계산적CO2농도화용의합법적방진치표현출료량호적일치성,소유측량수거지간적상관성고체99.79%,상대오차불초과2.00%,체도료교고적반연정도。결과표명,재요감측량대기성분방면,기우홍외반사전경식간섭광보의적OP/FTIR법시가행차유효적기술수단,직접법혹의합법개가실현고정도적농도반연。
The present paper describes the observations and measurements of the infrared absorption spectra of CO2 on the Earth’s surface with OP/FTIR method by employing a mid-infrared reflecting scanning Fourier transform spectrometry ,which are the first results produced by the first prototype in China developed by the team of authors .This reflecting scanning Fourier transform spectrometry works in the spectral range 2 100~3 150 cm -1 with a spectral resolution of 2 cm -1 .Method to measure the atmospheric molecules was described and mathematical proof and quantitative algorithms to retrieve molecular concentration were established .The related models were performed both by a direct method based on the Beer-Lambert Law and by a simula-ting-fitting method based on HITRAN database and the instrument functions .Concentrations of CO2 were retrieved by the two models .The results of observation and modeling analyses indicate that the concentrations have a distribution of 300~370 ppm , and show tendency that going with the variation of the environment they first decrease slowly and then increase rapidly during the observation period ,and reached low points in the afternoon and during the sunset .The concentrations with measuring times re-trieved by the direct method and by the simulating-fitting method agree with each other very well ,with the correlation of all the data is up to 99.79% ,and the relative error is no more than 2.00% .The precision for retrieving is relatively high .The results of this paper demonstrate that ,in the field of detecting atmospheric compositions ,OP/FTIR method performed by the Infrared reflecting scanning Fourier transform spectrometry is a feasible and effective technical approach ,and either the direct method or the simulating-fitting method is capable of retrieving concentrations with high precision .