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Understanding the Influence of Turbulence in Imaging Fourier-Transform Spectrometry of Smokestack Plumes

机译：理解湍流对烟囱羽流成像傅立叶变换光谱的影响

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An imaging Fourier-transform spectrometer (IFTS) was used to collect infrared hyper-spectral imagery of smokestack plume of a coal-burning power facility to assess the influence of turbulence on spectral retrieval of temperature (T) and pollutant concentrations (Ci). Radiance fluctuations due to plume turbulence introduced scene change artifacts (SCA) in the spectra. Time- averaging the spectra minimizes SCA magnitudes, but accurate T and Ci retrieval would require a priori knowledge of the statistical distribution of temperature and other stochastic flow field parameters. A method of quantile sorting in interferogram space that would allow the retrieval of the temperature distribution is presented and used to identify turbulence throughout the plume. Immediately above the stack exit, T and Ci estimates compared well to in situ measurements, and turbulence introduced only small systematic errors. Systematic errors, however, were more significant in other parts of the plume. While more complicated radiance fluctuations precluded retrieval of the temperature distribution, the results demonstrate the utility of additional information associated with interferogram quantiles and suggest the utility of IFTS in non-intrusive flow field analysis.

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Massman, J. L.;
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年度 2011
页码 1-63
总页数 63
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Smoke stacks ; Fourier transformation ; Hyperspectral imagery ; Plumes ; Turbulence ; Flow fields ; Infrared images ; Radiance ; Errors ; Information retrieval ; Concentration(Composition) ; Pollutants ; Parts ; Power ; Statistical distributions ; Stacking ; Coal ; Spectra ; Spectrometry ; Theses ; Distribution ; Stochastic processes ; Temperature;

机译：烟囱;傅里叶变换;高光谱图像;羽流;湍流;流场;红外图像;辐射;误差;信息检索;浓度（成分）;污染物;部分;功率;统计分布;堆积;煤;光谱;光谱测定;论文;分布;随机过程;温度;

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专利

1. IMAGING FOURIER-TRANSFORM SPECTROMETRY FOR PLUME DIAGNOSTICS AND CODE VALIDATION [J] . Michael R. Rhoby, Jacob L. Harley, Kevin C. Gross, International journal of energetic materials and chemical propulsion . 2013,第1期

机译：成像傅里叶变换光谱法用于羽状物诊断和代码验证
2. Remote Identification and Quantification of Industrial Smokestack Effluents via Imaging Fourier-Transform Spectroscopy [J] . KEVIN C. GROSS, KENNETH C. BRADLEY, GLEN P. PERRAM Environmental Science & Technology . 2010,第24期

机译：成像傅里叶变换光谱技术对工业烟囱废液的远程识别和定量
3. An analysis of the influence of the color rendition of images reconstructed from full-color computer-generated Fourier-transform holograms [J] . Ping Sun, Yiwen Wei, Zhong Wang, Physica Scripta: An International Journal for Experimental and Theoretical Physics . 2014,第3期

机译：从全彩色计算机生成的傅里叶变换全息图重建的图像的色彩再现的影响分析
4. Understanding the influence of turbulence in imaging Fourier transform spectroscopy of smokestack plumes [C] . Jennifer L. Massman, Kevin C. Gross Algorithms and technologies for multispectral, hyperspectral, and ultraspectral imagery XVII . 2011

机译：了解湍流对烟囱羽流成像傅里叶变换光谱的影响
5. Midwave infrared imaging Fourier transform spectrometry of combustion plumes. [D] . Bradley, Kenneth C. 2009

机译：燃烧羽流的中波红外成像傅里叶变换光谱法。
6. Mass Spectrometry Imaging and Integration with Other Imaging Modalities for Greater Molecular Understanding of Biological Tissues [O] . Tiffany Porta Siegel, Gregory Hamm, Josephine Bunch, -1

机译：质谱成像以及与其他成像方式的集成可以更深入地了解生物组织的分子
7. Mass Spectrometry Imaging and Integration with Other Imaging Modalities for Greater Molecular Understanding of Biological Tissues [O] . Tiffany Porta Siegel, Gregory Hamm, Josephine Bunch, 2018

机译：与其他成像方式的质谱成像和集成，以提高生物组织的更大分子理解

Understanding the Influence of Turbulence in Imaging Fourier-Transform Spectrometry of Smokestack Plumes

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