Abstract
Experimental techniques for detecting the arrival of a freely propagating flame at specified locations within and at the walls of a combustion volume are reviewed. The methods discussed are all fast, real-time techniques capable of the cycle-resolved measurements necessary to study premixed-charge combustion in spark ignition engines. The one non-optical technique discussed is the ionization probe, which detects the flame at a single point. The optical methods discussed include laser beam refraction, direct imaging and in situ optical fibers, which are all line-of-sight techniques.
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Witze, P. O., Martin, J. K. and Borgnakke, C. (1984) ‘Conditionally-sampled velocity and turbulence measurements in a spark ignition engine,’ Combustion Science and Technology 36, p. 301.
Schnauffer, K. (1934) ‘Engine-cylinder flame propagation studied by new methods,’ Transactions of the SAE 34, p. 17.
Quader, A. A. (1976) ‘What limits lean operation in spark ignition engines — flame initiation or propagation?’, Transactions of the SAE 85, p. 2374.
Witze, P. O. and Mendes-Lopes, J. M. C. (1986) ‘Direct measurement of the turbulent burning velocity in a homogeneous-charge engine,’ Transactions of the SAE 95, p. 540.
Foster, D. E. and Witze, P. 0. (1988) ‘A comparison of flame detection techniques for premixed-charge combustion in spark ignition engines,’ Experiments in Fluids 6, p. 283.
Robison, J. A., Behrens, M. D. and Mosher, R. G. (1959) ‘Investigating rumble in single-cylinder engines,’ Transactions of the SAE 67, p. 169.
Curry, S. (1963) ‘A three-dimensional study of flame propagation in a spark ignition engine,’ Transactions of the SAE 71, p. 628.
Witze, P. O. (1989) ‘Cycle-resolved multipoint ionization probe measurements in a spark ignition engine,’ SAE Paper No. 892099.
Dyer, T. M. (1979) ‘Characterization of one-and two-dimensional homogeneous combustion phenomena in a constant volume bomb,’ Transactions of the SAE 88, p. 1196.
Metghalchi, M. and Keck, J. C. (1980) ‘Laminar burning velocity of propane-air mixtures at high temperature and pressure,’ Combustion and Flame 38, p. 143.
Kalghatgi, G. T. and Swords, M. D. (1983) ‘Flame-speed measurements in an internal combustion engine,’ Combustion and Flame 49, p. 163.
Martin, J. K., Witze, P. O. and Borgnakke, C. (1984) ‘Multiparameter conditionally sampled laser velocimetry measurements during flame propagation in a spark ignition engine,’ Twentieth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, p. 29.
Witze, P. O. and Vilchis, F. R. (1981) ‘Stroboscopic laser shadowgraph study of the effect of swirl on homogeneous combustion in a spark-ignited engine,’ Transactions of the SAE 90, p. 979.
Scott, W. M. (1969) ‘Looking in on diesel combustion,’ Transactions of the SAE 78, p. 33.
Baritaud, T. A. and Green, R. M. (1986) ‘A 2-d flame visualization technique applied to the i.c. engine,’ SAE Paper No. 860025.
zur Loye, A. O. and Bracco, F. V. (1987) ‘Two-dimensional visualization of premixed-charge flame structure in an ic engine,’ SAE Paper No. 870454.
Suntz, R., Becker, H., Monkhouse, P. and Wolfrum, J. (1988) ‘Two-dimensional visualization of the flame front in an internal combustion engine by laser-induced fluorescence of OH radicals,’ Applied Physics B 47, p. 287.
Felton, P. G., Mantzaras, J., Bomse, D. S. and Woodin, R. L. (1988) ‘Initial two-dimensional laser induced fluorescence measurements of OH radicals in an internal combustion engine,’ Transactions of the SAE 97, p. 3.780.
Mantzaras, J., Felton, P. G. and Bracco, F. V. (1988) ‘Three-dimensional visualization of premixed-charge engine flames: islands of reactants and products; fractal dimensions; and homogeneity,’ SAE Paper No. 881635.
Witze, P. O. and Foster, D. E. (1988) ‘Linear fiber-optic array for measuring the transient propagation of a premixed-charge flame,’ Twentieth-Second Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, p. 1897.
Bowditch, F. W. (1961) ‘A new tool for combustion research: a quartz piston engine,’ Transactions of the SAE 69, p. 17.
Spicher, U. and Velji, A. (1984) ‘Measurements of spatial flame propagation and flow velocities in a spark ignition engine,’ Twentieth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, p. 19.
Spicher, U., Schmitz, G. and Kollmeier, H-P. (1988) ‘Application of a new optical fiber technique for flame propagation diagnostics in ic engines,’ Transactions of the SAE 97, p. 3.803.
Witze, P. O., Hall, M. J. and Wallace, J. S. (1988) ‘Fiber-optic instrumented spark plug for measuring early flame development in spark ignition engines,’ Transactions of the SAE 97, p. 3.813.
Nolan, J. P. (1989) Barrack Laboratories, Marlborough, MA, private communication.
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© 1992 Springer Science+Business Media Dordrecht
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Witze, P.O. (1992). Techniques for Detecting Flame Arrival in Premixed-Charge Spark Ignition Engines. In: Durão, D.F.G., Heitor, M.V., Whitelaw, J.H., Witze, P.O. (eds) Combustings Flow Diagnostics. NATO ASI Series, vol 207. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-2588-8_19
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DOI: https://doi.org/10.1007/978-94-011-2588-8_19
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