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Combustion Science and Technology Volume 42, 1985 - Issue 5-6
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Original Articles

Laser-Saturated Fluorescence Measurements of OH in Atmospheric Pressure CH4/O2/N2 Flames Under Sooting and Non-Sooting Conditions

ROBERT P. LUCHT Flame Diagnostics Laboratory. School of Mechanical Engineering. Purdue University, West Lafayette, Indiana, 47907
,
DONALD W. SWEENEY Flame Diagnostics Laboratory. School of Mechanical Engineering. Purdue University, West Lafayette, Indiana, 47907
&
NORMAND M. LAURENDEAU Flame Diagnostics Laboratory. School of Mechanical Engineering. Purdue University, West Lafayette, Indiana, 47907
Pages 259-281 | Received 26 Mar 1984, Accepted 13 Aug 1984, Published online: 21 May 2007

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Anil K. Patnaik, Sukesh Roy, Robert P. Lucht & James R. Gord. (2008) Collisional effects on molecular dynamics in electronic-resonance-enhanced CARS. Journal of Modern Optics 55:19-20, pages 3263-3272.
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SATBIR SINGH, ROLFD. REITZ, MARKP. B. MUSCULUS & THIERRY LACHAUX. (2007) SIMULTANEOUS OPTICAL DIAGNOSTIC IMAGING OF LOW-TEMPERATURE, DOUBLE-INJECTION COMBUSTION IN A HEAVY-DUTY DI DIESEL ENGINE. Combustion Science and Technology 179:11, pages 2381-2414.
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CHRISTOPHERB. DREYER, SCOTTM. SPULER & MARK LINNE. (2001) CALIBRATION OF LASER INDUCED FLUORESCENCE OF THE OH RADICAL BY CAVITY RINGDOWN SPECTROSCOPY IN PREMIXED ATMOSPHERIC PRESSURE FLAMES. Combustion Science and Technology 171:1, pages 163-190.
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M. S. KLASSEN, B.D. THOMPSON, T.A. REICHARDT, G.B. KING & N.M. LAURENDEAU. (1994) Flame Concentration Measurements Using Picosecond Time-Resolved Laser-Induced Fluorescence. Combustion Science and Technology 97:4-6, pages 391-403.
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CAMPBELLD. CARTER, GALENB. KING & NORMANDM. LAURENDEAU. (1991) Quenching-corrected Saturated Fluorescence Measurements of the Hydroxyl Radical in Laminar High-pressure C2H6/02/ N2 Flames. Combustion Science and Technology 78:4-6, pages 247-264.
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B. Attal-Trétout, P. Berlemont & J.P. Taran. (1990) Three-colour CARS spectroscopy of the OH radical at triple resonance. Molecular Physics 70:1, pages 1-51.
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NORMANDM. LAURENDEAU & J. E. M. GOLDSMITH. (1989) Comparison of Hydroxyl Concentration Profiles using Five Laser-Induced Fluorescence Methods in a Lean Subatmospheric-Pressure H2/O2/Ar Flame. Combustion Science and Technology 63:1-3, pages 139-152.
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E. W. Kaiser, K. Marko, David Klick, L. Rimai, Charles C. Wang, B. Shirinzadeh Wang & B. Zhou. (1986) Measurement of OH Density Profiles in Atmospheric-Pressure Propane-Air Flames. Combustion Science and Technology 50:1-3, pages 163-183.
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Articles from other publishers (36)

Yudong Guo, Lijun Xu, Hongyao Li, Hongyu Zhang & Zhang Cao. (2023) Quantitative Imaging of Temperature and OH Concentration From Single Wavelength Planar Laser-Induced Fluorescence. IEEE Transactions on Instrumentation and Measurement 72, pages 1-9.
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Ayoub O.G. Abdalla, Dong Liu, Lijie Zhang, Xuan Zhao, Yaoyao Ying, Bo Jiang & Xiaomin He. (2020) Soot formation and evolution in RP-3 kerosene inverse diffusion flames: Effects of flow rates and dimethyl carbonate additions. Fuel 273, pages 117732.
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Qianlong Wang, Liqiao Jiang, Weiwei Cai & Yi Wu. (2019) Study of UV Rayleigh scattering thermometry for flame temperature field measurement. Journal of the Optical Society of America B 36:10, pages 2843.
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M. Udayakumar & N. H. Mohamed Ibrahim. 2018. Air Pollution and Control. Air Pollution and Control 155 184 .
J. Marquetand, M. Fischer, I. Naydenova & U. Riedel. 2013. Flow and Combustion in Advanced Gas Turbine Combustors. Flow and Combustion in Advanced Gas Turbine Combustors 205 233 .
J. W. Walewski, K. Nyholm, A. Dreizler & M. Ald?n. (2016) Polarization Spectroscopy Applied to the Detection of Trace Constituents in Sooting Combustion. Applied Spectroscopy 58:2, pages 238-242.
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Sergey Cheskis. (1999) Quantitative measurements of absolute concentrations of intermediate species in flames. Progress in Energy and Combustion Science 25:3, pages 233-252.
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L. Lehr & P. Hering. (1997) Quantitative nonlinear spectroscopy: a direct comparison of degenerate four-wave mixing with cavity ring-down spectroscopy applied to NaH. IEEE Journal of Quantum Electronics 33:9, pages 1465-1473.
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R. Kienle, M. P. Lee & K. Kohse-Höinghaus. (1996) A scaling formalism for the representation of rotational energy transfer in OH (A 2Σ+) in combustion experiments. Applied Physics B Laser and Optics 63:4, pages 403-418.
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Hidenori Kosaka, Takahiro Nishigaki, Takeyuki Kamimoto, Takashi Sano, Akira Matsutani & Shinichi Harada. Simultaneous 2-D Imaging of OH Radicals and Soot in a Diesel Flame by Laser Sheet Techniques. Simultaneous 2-D Imaging of OH Radicals and Soot in a Diesel Flame by Laser Sheet Techniques.
John E. Dec & Edward B. Coy. OH Radical Imaging in a DI Diesel Engine and the Structure of the Early Diffusion Flame. OH Radical Imaging in a DI Diesel Engine and the Structure of the Early Diffusion Flame.
Gregory J. Fiechtner, Galen B. King & Normand M. Laurendeau. (1995) Quantitative concentration measurements of atomic sodium in an atmospheric hydrocarbon flame with asynchronous optical sampling. Applied Optics 34:6, pages 1117.
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C. D. Carter & N. M. Laurendeau. (1994) Wide- and narrow-band saturated fluorescence measurements of hydroxyl concentration in premixed flames from 1 bar to 10 bar. Applied Physics B Laser and Optics 58:6, pages 519-528.
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Katharina Kohse-Höinghaus. (1994) Laser techniques for the quantitative detection of reactive intermediates in combustion systems. Progress in Energy and Combustion Science 20:3, pages 203-279.
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Kermit C. Smyth, Thomas S. Norton, J. Houston Miller, Mitchell D. Smooke, Rahul Puri, Marlow Moser & Robert J. Santoro. 1994. Soot Formation in Combustion. Soot Formation in Combustion 113 133 .
S. Kröll, C. Löfström & M. Aldén. (2016) Background-Free Species Detection in Sooty Flames Using Degenerate Four-Wave Mixing. Applied Spectroscopy 47:10, pages 1620-1622.
Crossref
Campbell D. Carter, Galen B. King & Normand M. Laurendeau. (1992) Saturated fluorescence measurements of the hydroxyl radical in laminar high-pressure C_2H_6/O_2/N_2 flames. Applied Optics 31:10, pages 1511.
Crossref
Rahul Puri, Marlow Moser, Robert J. Santoro & Kermit C. Smyth. (1992) Laser-induced fluorescence measurements of oh· concentrations in the oxidation region of laminar, hydrocarbon diffusion flames. Symposium (International) on Combustion 24:1, pages 1015-1022.
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. (1997) The chemical structure of premixed fuel-rich methane flames: the effect of hydrocarbon species in the secondary reaction zone. Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences 433:1887, pages 1-21.
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David J. Rakestraw, Lawrence R. Thorne & Thomas Dreier. (1991) Detection of NH radicals in flames using degenerate four-wave mixing. Symposium (International) on Combustion 23:1, pages 1901-1907.
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Kermit C. Smyth & Paul J. H. Tjossem. (1990) Radical concentration measurements in hydrocarbon diffusion flames. Applied Physics B Photophysics and Laser Chemistry 50:6, pages 499-511.
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Thomas Dreier & David J. Rakestraw. (1990) Degenerate four-wave mixing diagnostics on OH and NH radicals in flames. Applied Physics B Photophysics and Laser Chemistry 50:6, pages 479-485.
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Kermit C. Smyth, Paul J.H. Tjossem, Anthony Hamins & J.Houston Miller. (1990) Concentration measurements of OH· and equilibrium analysis in a laminar methane-air diffusion flame. Combustion and Flame 79:3-4, pages 366-380.
Crossref
J.Thaddeus Salmon & Normand M. Laurendeau. (1990) Relative fluorescence-quenching measurements of atomic hydrogen in subatmospheric H2/O2/N2 flames with photoionization controlled-loss spectroscopy. Journal of Quantitative Spectroscopy and Radiative Transfer 43:2, pages 155-162.
Crossref
Paul A. Bonczyk. (1989) Laser-induced saturated fluorescence of SrOH in flames. Applied Optics 28:8, pages 1529.
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J.Thaddeus Salmon & Normand M. Laurendeau. (1988) Concentration measurements of atomic hydrogen in subatmospheric premixed C2H4/O2/Ar flat flames. Combustion and Flame 74:3, pages 221-231.
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K. Kohse-H?inghaus, P. Koczar & Th. Just. (1988) Absolute concentration measurements of OH in low-pressure hydrogen-oxygen, methane-oxygen, and acetylene-oxygen flames. Symposium (International) on Combustion 21:1, pages 1719-1727.
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Stephen J. Harris, Weiner Anita M.Richard J. Blint & J.E.M. Goldsmith. (1988) Concentration profiles in rich and sooting ethylene flames. Symposium (International) on Combustion 21:1, pages 1033-1045.
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Campbell D. Carter, J. Thaddeus Salmon, Galen B. King & Normand M. Laurendeau. (1987) Feasibility of hydroxyl concentration measurements by laser-saturated fluorescence in high-pressure flames. Applied Optics 26:21, pages 4551.
Crossref
Tim Edwards, David P. Weaver & David H. Campbell. (1987) Laser-induced fluorescence in high pressure solid propellant flames. Applied Optics 26:17, pages 3496.
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J. Thaddeus Salmon & Normand M. Laurendeau. (1987) Absolute concentration measurements of atomic hydrogen in subatmospheric premixed H_2/O_2/N_2 flat flames with photoionization controlled-loss spectroscopy. Applied Optics 26:14, pages 2881.
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R.W. Dibble, A.R. Masri & R.W. Bilger. (1987) The spontaneous raman scattering technique applied to nonpremixed flames of methane. Combustion and Flame 67:3, pages 189-206.
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P.A. Bonczyk. (1987) The influence of alkaline-earth additives on soot and hydroxyl radicals in diffusion flames. Combustion and Flame 67:2, pages 179-184.
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Mark M. Harris, Galen B. King & Normand M. Laurendeau. (1986) Influence of temperature and hydroxyl concentration on incipient soot formation in premixed flames. Combustion and Flame 64:1, pages 99-112.
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J. E. M. Goldsmith & Normand M. Laurendeau. (1986) Two-photon-excited fluorescence measurements of OH concentration in a hydrogen?oxygen flame. Applied Optics 25:2, pages 276.
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M. C. Drake & R. W. Pitz. (1985) Comparison of turbulent diffusion flame measurements of OH by planar fluorescence and saturated fluorescence. Experiments in Fluids 3:5, pages 283-292.
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