The performance and emission characteristics of a single-cylinder two-stroke diesel engine fueled with direct injection of natural gas entrained with pilot diesel ignition enhancer have been measured. The thermal efficiency of the optimum gas-diesel operation was shown to exceed that of the conventional diesel at full load, but to be less at part load where the ignition delay was excessive. At high load, where the NOx emission problem is most serious, substantial reduction in NOx emission rate was obtained with delay of injection timing and also with use of exhaust gas recirculation. Measured cylinder pressures were used with a three-zone combustion model to determine ignition delay and the temperatures of the burned gas. The predicted NOx emissions based on equilibrium concentration of NO at the maximum burned gas temperature were found to correlate closely with exhaust pipe measurements of NOx.

1.
Ahmad, T., and Plee, S. L., 1983, “Application of Flame Temperature Correlations to Emissions from a Direct-Injection Diesel Engine,” SAE Paper No. 831734.
2.
Fraser, R. A., Siebers, D. L., and Edwards, C. F., 1991, “Autoignition of Methane and Natural Gas in a Simulated Diesel Environment,” SAE Paper No. 910227.
3.
Heywood, J., 1988, Internal Combustion Engine Fundamentals, McGraw-Hill Inc., New York, NY.
4.
Miyake, M., Biwa, T., Endoh, Y., Shimotsu, M., Murakami, S., and Komoda, T., 1983, “The Development of High-Output, Highly-Efficient Gas Burning Diesel Engines,” CIMAC Paper D11.2.
5.
Newhall, H. K., 1968, “Kinetics of Engine-Generated Nitrogen Oxides and Carbon Monoxide” Proceedings, 12th Symposium (International) on Combustion, pp. 603–613.
6.
Ouellette, P., and Hill, P. G., 1992, “Visualization of Natural Gas Injection for a Compression-Ignition Engine,” SAE Paper No. 921555.
7.
Plee, S. L., Ahmad, T., Myers, T. P., and Faeth, G. M., 1982, “Diesel NOx Emissions—A Sample Correlation Technique For Intake Air Effects,” Proceedings, 19th Symposium (International) on Combustion, pp. 1495–1602.
8.
Reynolds, W., 1987, “STANJAN A Chemical Equilibrium Solver v 3.60—An Application Software,” Department of Mechanical Engineering, Stanford University, Stanford, CA.
9.
Tao, Y., 1993, “Performance and Emission Characteristics of a Gas-Diesel Engine,” M.A.Sc. thesis, Department of Mechanical Engineering, University of British Columbia, Vancouver, B.C.
10.
Voiculescu, J. A., and Borman, G. L., 1978, “An Experimental Study of Diesel Engine Cylinder-Averaged NOx Histories,” SAE Paper No. 780228.
11.
Wakenell, J. A., O’Neal, G. B., and Baker, Q. A., 1987, “High-Pressure Late Cycle Direct Injection of Natural Gas in a Rail Medium Speed Diesel Engine,” SAE Paper No. 872041.
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