基于TDLAS检测技术的甲烷体积分数场重建研究

张旭; 曹树亚; 郭腾霄; 董力强; 杨柳; 原博; 丁学全; 张旭; 曹树亚; 郭腾霄; 董力强; 杨柳; 原博; 丁学全

doi:10.7510/jgjs.issn.1001-3806.2018.04.027

[1]	LAI S L, WANG H, GONG P, et al. Research of propane detecting based on near-infrared laser spectral absorption[J]. Laser Technology, 2017, 41(2):284-288(in Chinese).
[2]	KRISHNA Y, O'BYRNE S. Tunable diode laser absorption spectroscopy as a flow diagnostic tool:A reviewreview[J]. Journal of the Indian Institute of Science, 2016, 96(1):17-28.
[3]	NADIR Z, BROWN M S, COMER M L, et al. Gaussian mixture prior models for imaging of flow cross sections from sparse hyperspectral measurements[C/OL].(2015-12-16)[2018-02-01].https://www.researchgate.net/publication/300413419_Gaussian_mixture_prior_models_for_imaging_of_flow_cross_sections_from_sparse_hyperspectral_measurements.
[4]	LINDSTROM C, TAM C J, DAVIS D, et al. Diode laser absorption tomography of two dimensional supersonic flow[C/OL].(2007-07-11)[2018-02-01].https://www.researchgate.net/publication/268482107_Diode_Laser_Absorption_Tomography_of_Two_Dimensional_Supersonic_Flow.
[5]	MASTERSON B, SAPPEY A, OWENBY D, et al. Flight-ready TDLAS combustion sensor for hypersonics[C/OL].(2007-07-11)[2018-02-01].https://www.researchgate.net/publication/271366737_Flight-Ready_TDLAS_Combustion_Sensor_for_Hypersonics.
[6]	BRYNER E, BUSA K, MCDANIEL J, et al. Spatially resolved temperature and water vapor concentration distributions in a flat flame burner by tunable diode laser absorption tomography[C/OL].(2011-01-07)[2018-02-01]. http://www.researchgate.net/publication/268566152_Spatially_Resolved_Temperature_and_Water_Vapor_Concentration_Distributions_in_a_Flat_Flame_Burner_by_Tunable_Diode_Laser_Absorption_Tomography.
[7]	DONG L, TITTEL F K, LI C, et al. Compact TDLAS based sensor design using interband cascade lasers for mid-IR trace gas sensing[J]. Optics Express, 2016, 24(6):A528-A535. doi: 10.1364/OE.24.00A528
[8]	DING N, ZHANG S B. Water vapor tomography algebraic reconstruction algorithm based on the prime number decomposition access order[J]. Geography and Geo-Information Science, 2017, 112(3):42-47.
[9]	JIANG Zh Sh, WANG F, XU T, et al. Study of methane telemetry based on tunable semiconductor laser absorption spectroscopy[J]. Energy Engineering, 2012(3):5-9(in Chinese).
[10]	MA L, LI X, CAI W, et al. Selection of multiple optimal absorption transitions for nonuniform temperature sensing[J]. Applied Spectroscopy, 2010, 64(11):1274-1282. doi: 10.1366/000370210793335052
[11]	BUSA K M, RICE B, MCDANIEL J C, et al. Direct measurement of combustion efficiency of a dual-mode scramjet via TDLAT and SPIV (Invited)[C/OL].(2015-01-09)[2018-02-01].http://www.researchgate.net/publication/306033342_Direct_Measurement_of_Combustion_Efficiency_of_a_Dual-Mode_Scramjet_via_TDLAT_and_SPIV_Invited.
[12]	LIU C, XU L, CHEN J, et al. Development of a fan-beam TDLAS-based tomographic sensor for rapid imaging of temperature and gas concentration[J]. Optics Express, 2015, 23(17):22494. doi: 10.1364/OE.23.022494
[13]	LI J Y. Study on temperature measurement of combustion field based on tunable laser absorption spectroscopy[D]. Tianjin: Tianjin University, 2013: 1-135(in Chinese).
[14]	SONG J L, HONG Y J, WANG G Y, et al. Study on two-dimensional distribution reconstruction of gas temperature and concentration in combustion field based on laser absorption spectroscopy[J]. Acta Physica Sinica, 2012, 61(24):240702(in Chinese).
[15]	CHENG L H. Study of iterative tomography algorithm for gas diffusion and distribution reconstruction based on incomplete projection data[D]. Hefei: Hefei Polytechnic University, 2015: 1-78(in Chin-ese).
[16]	XIA H H, KAN R F, LIU J G, et al. Analysis of algebraic reconstruction technique for accurate imaging of gas temperature and concentration based on tunable diode laser absorption spectroscopy[J]. Chinese Physics, 2016, B25(6):246-253.
[17]	BUSA K M, BROWN M S, GRUBER M, et al. Common-path measurement of H₂O, CO, and CO₂ via TDLAS for combustion progress in a hydrocarbon-fueled scramjet[C/OL].(2016-01-08)[2018-02-01].http://www.researchgate.net/publication/309339754_Common-Path_Measurement_of_H2O_CO_and_CO2_via_TDLAS_for_Combustion_Progress_in_a_Hydrocarbon-Fueled_Scramjet.
[18]	XIA H, XU Z, KAN R, et al. Numerical study of two-dimensional water vapor concentration and temperature distribution of combustion zones using tunable diode laser absorption tomography[J]. Infrared Physics & Technology, 2015, 72:170-178.
[19]	ZHANG G, LIU J, XU Z, et al. Characterization of temperature non-uniformity over a premixed CH₄-air flame based on line-of-sight TDLAS[J]. Applied Physics, 2016, B122(1):3-11.
[20]	JACKSON K, GRUBER M, BARHORST T. The HIFiRE flight 2 experiment: an overview and status update[C/OL].(2009-08-05)[2018-02-01]. http://www.researchgate.net/publication/268482795_The_HIFiRE_Flight_2_Experiment_An_Overview_and_Status_Update.