Examination of the Factors that Influence the Durability of Railplugs

Technical Paper

940201

ISSN: 0148-7191, e-ISSN: 2688-3627

DOI: https://doi.org/10.4271/940201

Published March 01, 1994 by SAE International in United States

Sector:

Automotive

Event: International Congress & Exposition

Language: English

Abstract

A new type of ignitor, the railplug, shows promise of extending the dilution limits for spark ignition engines. While much of the effort expended in our study of railplugs has focused upon demonstrating their effectiveness, it is recognized that railplug durability is presently not acceptable for production engine applications. The goal of the present study was to examine the factors that affect durability. The results of two types of investigations are reported. The effects of rail materials, pressure, delivered energy, and voltage at constant delivered energy on electrode erosion rates were studied for repeated firings in air at constant pressure. Railplug durability in a four-stroke SI engine was also evaluated, including examination of the effects of delivered energy, current pulse characteristics, and materials. This research was not intended to demonstrate improved railplug durability, but rather was intended to develop information to guide future efforts to improve railplug durability. The erosion rate studies showed 1) that several materials are promising candidates for center rails, and 2) that use of a high voltage firing circuit should significantly improve durability. The engine tests used a low voltage firing circuit and 1) indicated that future durability tests should be done using the capacitance that results in fastest combustion, 2) reaffirmed that decreased delivered energies increase durability, and 3) isolated two separate failure mechanisms that depend upon the delivered energy, with the division appearing to be a delivered energy in the range of 1.0-1.4 J. It is concluded that future efforts to improve railplug durability should focus upon 1) additional studies of center rail materials, 2) use of a high voltage firing circuit, 3) the lower delivered energy levels, and 4) most importantly, improved railplug geometries.

Also In

Advanced Powerplant Concepts
Number: SP-1038; Published: 1994-03-01

SAE 1994 Transactions: Journal of Engines
Number: V103-3; Published: 1995-09-01

References

Gomez, A.J. Reinke P.E. 1988 “Lean burn: a review of incentives, methods, and tradeoffs,” SAE Paper 880291
Fitzgerald, D.J. 1976 “Pulsed plasma igniter for automotive use,” SAE Paper 760764
Ask J.R. Piatkowski P. Foucher M.J. Rado W.G. 1977 “Design of a plasma jet ignition system for automotive applications,” SAE Technical Paper 770355
Clements, R.M. Smy P.R. Dale J.D. 1981 “An experimental study of the ejection mechanism for typical plasma jet ignitors,” Combustion and Flame 42 287 295
Dale, J.D. Oppenheim A.K. 1981 “Enhanced ignition for IC engines with premixed gases” SAE Paper 810146
Edwards, C.F. Oppenheim A.K. Dale J.D. 1983 “A comparative study of plasma ignition systems,” SAE Paper 830479
Edwards, C.F. Horton H.E. Oppenheim A.K. 1985 “A photographic study of plasma ignition systems,” SAE Paper 850077
Smy, P.R. Clements R.M. Topham D.R. 1985 “Efficiency and erosion of plasma jet ignitors-variation with voltage,” Combust. Sci. and Tech. 42 317 324
Kupe, J. Wilhelm H. Adams W. 1987 “Operational characteristics of a lean-burn SI engine: comparison between plasma-jet and conventional ignition systems” SAE Paper 870608
Murase, E. Ono S. Hanada K. Nakahara S. 1989 “Plasma jet ignition in turbulent lean mixtures,” SAE Paper 890155
Oppenheim, A.K. Teichman K. Horn K. Stewart H.E. 1978 “Jet ignition of an ultra lean mixture” SAE Paper 780637
Oppenheim, A.K. Beltramo J. Farris D.W Maxon J.A. Horn K. Stewart H.E. 1989 “Combustion by pulsed jet plumes: Key to controlled combustion engines,” SAE Paper 890153
Maxon, J.A. Oppenheim A.K. 1990 “Pulsed jet combustion - key to refinement of the stratified charge concept Twenty-Third Symposium (international) on Combustion The Combustion Institute Pittsburgh 1041 1046
Gmurczyk, G.W. Lezanski T. T. Kesler M. Chomiak T. Rychter T. Wolanski P. 1992 “Single compression machine study of pulsed jet combustion (PJC)” Twenty-Fourth Symposium (international) on Combustion The Combustion Institute Pittsburgh 1441 1448
Tamai, R. Maxon J.A. Shepard I. Cheng R.K. Oppenheim A.K. 1992 “Rayleigh, scattering density measurements of combustion in an enclosure” Twenty-Fourth Symposium (International) on Combustion The Combustion Institute Pittsburgh 1433 1439
Lezanski, T. Kesler M. Rychter T. Teodorczyk A. Wolanski P. 1993 “Performance of pulsed jet combustion (PJC) system in a research engine” SAE Paper 932709
Hall, M.J. Tajima H. Matthews R.D. Koeroghlian M.M. Weldon W.F. Nichols S.P. 1991 “Initial studies of a new type of ignitor: the railplug” SAE Paper 912319 , also in Journal of Engines 100 1730 1746 1992
Hall, M.J. Ellzey J.L. Tajima H. Zhao X.W. 1993 “Plasma plume generation by a railplug ignitor and simulation by multidimensional modeling” Experiments in Fluids 14 416 422
Faidley, R.W. Darden M.H. Weldon W.F. 1992 “The railplug: a new ignitor for internal combustion engines” Proceedings of the 6th Symposium on Electromagnetic Launch Technology Institute for Advanced Technologies the University of Texas Austin
Matthews, R.D. Hall M.J. Faidley R.W. Chiu J.P. Zhao X.W. Annezer I. Koenig M.H. Harber J.F. Darden M.H. Weldon W.F. Nichols S.P. 1992 “Further analysis of railplugs as a new type of ignitor” SAE Paper 922167 , accepted by Journal of Engines 1993
Zheng, J. Capiaux S. Chiu J.P. Matthews R.D. Faidley R.W. Darden M.H. Weldon W.F. Nichols S.P. 1993 “Effects of railplugs on the dilution tolerance of a spark ignition engine” SAE Paper 931800
Shen, K. Chiu J.P. Faidley R.W. Darden M.H. Matthews R.D. Weldon W.F. Nichols S.P. 1994 “Initial studies of railplugs as an aid for cold starting of diesels” SAE Paper 940108
Tribble, D.J. 1992 Vice President Champion Spark Plug Company
Wiegand, G. 1993 “An investigation of electrode erosion due to plasma armatures in a repetitively fired railplug: A new miniature railgun used as a spark ignition source,” Univ. of Texas Austin
Arkless, S. 1992 “The design, manufacture and application of spark plugs for race engines” Racecar Engineering 2 5 70 71
Cobine, J.D. 1941 Gaseous Conductors McGraw-Hill New York
Llewellyn-Jones, F. 1957 Ionization and Breakdown in Gases John Wiley and Sons New York

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Technical Paper	Impact of Railplug Circuit Parameters on Energy Deposition and Durability
Technical Paper	Analysis of Factors that Affect the Performance of Railplugs

Examination of the Factors that Influence the Durability of Railplugs

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