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Combustion Science and Technology Volume 12, 1976 - Issue 4-6
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Original Articles

Temperature Measurement in Conical Flames by Laser Interferometry

R. SOUTH The British Gas Corporation, Watson House. Peterborough Road, London, SW6 3HN
&
B. M. HAYWARD The City University, St John Street, London, EC1V 4PB|
Pages 183-195 | Received 01 May 1975, Published online: 15 May 2007

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S. Balamurugan, B. Gayathri, C. B. Sobhan & V. Sajith. (2017) Measurement of Open Flame Temperature of Nano Particle Additive Dispersed Diesel Using Digital Interferometry. Combustion Science and Technology 189:10, pages 1813-1831.
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Chi‐Chung Chen & Keh‐Chin Chang. (1991) Application of laser holographic interferometry to temperature measurements in premixed flames with different flame structures. Journal of the Chinese Institute of Engineers 14:6, pages 633-638.
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Articles from other publishers (17)

Lijun Xu, Xiaoyang Tang, Lipei Cao & Zhang Cao. (2024) Dynamic imaging of three-dimensional temperature field via three-directional wavelength modulated lateral shearing interferometry. Optics and Lasers in Engineering 172, pages 107835.
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Xiaoyang Tang, Zhang Cao, Zhonghong Wang, Heng Xie & Lijun Xu. (2021) Retrieval of Phase and Temperature Distributions in Axisymmetric Flames From Phase-Modulated Large Lateral Shearing Interferogram. IEEE Transactions on Instrumentation and Measurement 70, pages 1-12.
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Lancia Hubley, Jackson Roberts, Juergen Meyer, Alicia Moggré & Steven Marsh. (2019) Optical-Radiation-Calorimeter Refinement by Virtual-Sensitivity Analysis. Sensors 19:5, pages 1167.
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Henrik Lycksam, Mikael Sjödahl, Per Gren, Marcus Öhman & Rikard Gebart. (2012) High-speed interferometric measurement and visualization of the conversion of a black liquor droplet during laser heating. Optics and Lasers in Engineering 50:11, pages 1654-1661.
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Da-Yong Zhang & Huai-Chun Zhou. (2007) Temperature measurement by holographic interferometry for non-premixed ethylene-air flame with a series of state relationships. Fuel 86:10-11, pages 1552-1559.
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Xiao Qin, Xudong Xiao, Ishwar K. Puri & Suresh K. Aggarwal. (2002) Effect of varying composition on temperature reconstructions obtained from refractive index measurements in flames. Combustion and Flame 128:1-2, pages 121-132.
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S Yuasa. (1997) Ignition and combustion of aluminum in oxygen/nitrogen mixture streams. Combustion and Flame 108:4, pages 387-390.
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S M Tieng, C C Lin, Y C Wang & T Fujiwara. (1996) Effect of composition distribution on holographic temperature measurement of a diffuse flame. Measurement Science and Technology 7:4, pages 477-488.
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. 1993. Dynamics of Gaseous Combustion. Dynamics of Gaseous Combustion 97 113 .
Sheng Mao Tieng, Wen Zen Lai & Toshi Fujiwara. (1992) Holographic temperature measurement on axisymmetric propane-air, fuel-lean flame. Measurement Science and Technology 3:12, pages 1179-1187.
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Sheng Mao Tieng & Wen Zen Lai. (1992) Temperature measurements of reacting flowfield by phase-shifting holographic interferometry. Journal of Thermophysics and Heat Transfer 6:3, pages 445-451.
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Tieng Sheng Mao & Chen Han Tun. 1991. Applications of Laser Techniques to Fluid Mechanics. Applications of Laser Techniques to Fluid Mechanics 102 122 .
L.M. Smith. (1988) Nonstationary noise effects in the Abel inversion. IEEE Transactions on Information Theory 34:1, pages 158-161.
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Eric W. Hansen & Phaih-Lan Law. (1985) Recursive methods for computing the Abel transform and its inverse. Journal of the Optical Society of America A 2:4, pages 510.
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W. Brötz, A. Schönbucher, R. Lucas & N. Schieß. (2010) Kohärente Kurzzeit‐Strukturen und momentane Brechzahl‐, Dichte‐ und Temperaturprofile in einer n‐Hexan‐Tankflamme. Berichte der Bunsengesellschaft für physikalische Chemie 87:10, pages 951-958.
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F G Roper, C Smith & I Fells. (1982) A scanning optical densitometer using deconvolution to measure soot concentrations in axisymmetric flames. Journal of Physics E: Scientific Instruments 15:11, pages 1177-1183.
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A. GUPTAI. ROSSI. (1980) Application of laser schlieren interferometry to burning droplets. Application of laser schlieren interferometry to burning droplets.

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