Stoichiometric Operation of a Gas Engine Utilizing Synthesis Gas and EGR for NOx Control

Author:

Smith Jack A.1,Bartley Gordon J. J.2

Affiliation:

1. Department of Engine Research, Engine and Vehicle Research Division, Southwest Research Institute, 6220 Culebra Road, San Antonio, TX 78226-0510

2. Department of Emissions Research, Automotive Products and Emission Research Division, Southwest Research Institute, 6220 Culebra Road, San Antonio, TX 78226-0510

Abstract

This paper presents the results from an internal research study conducted at the Southwest Research Institute (SwRI) on the effects of stoichiometric mixtures of natural gas and synthesis gas with exhaust gas recirculation (EGR) on engine performance and exhaust emissions. Constant load performance and emissions tests were conducted on a modified, single-cylinder, Caterpillar 1Y540 research engine at 11.0 bar (160 psi) bmep. Engine performance and emissions comparisons between natural gas with EGR, and natural gas with syngas and EGR are presented. In addition, the performance characteristics of the fuel reforming catalyst are presented. Results show that thermal efficiency increases with increasing EGR for both natural gas operation and natural gas with syngas operation at constant load. The use of syngas with natural gas extended the EGR tolerance by 44.4 percent on a mass basis compared to natural gas only, leading to a 77 percent reduction in raw NOx emissions over the lowest natural gas with EGR NOx emissions. [S0742-4795(00)00504-4]

Publisher

ASME International

Subject

Mechanical Engineering,Energy Engineering and Power Technology,Aerospace Engineering,Fuel Technology,Nuclear Energy and Engineering

Reference15 articles.

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2. Smith, J. A., et al., 1996, “The Hybrid Rich-Burn/Lean-Burn Engine, Part 2,” Natural Gas Engine, Combustion, Emission and Simulation, ASME, New York.

3. Houseman, J., and Hoehn, F. W., 1974, “A Two-Charge Engine Concept: Hydrogen Enrichment,” SAE Paper No. 741169.

4. Parks, F. B., 1976, “A Single-Cylinder Engine Study of Hydrogen Rich Fuels,” SAE Paper No. 760099.

5. MacDonald, J. S., 1976, “Evaluation of the Hydrogen-Supplemented Fuel Concept with an Experimental Multicylinder Engine,” SAE Paper No. 760101.

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