posted on 2009-12-08, 12:30authored byG.P. McTaggart-Cowan, S.N. Rogak, S.R. Munshi, P.G. Hill, W.K. Bushe
This work investigates the implications of natural gas composition on the combustion in a heavy-duty
natural gas engine and on the associated pollutant emissions. In this engine system, natural gas is injected
into the combustion chamber shortly before the end of the compression stroke; a diesel pilot that precedes
the natural gas injection provides the ignition source. The effects of adding ethane, propane, hydrogen, and
nitrogen to the fuel are reported here. The results indicate that these additives had no significant effect on
the engine’s power or fuel consumption. Emissions of unburned fuel are reduced for all additives through
either enhanced ignition or combustion processes. Black carbon particulate matter emissions are increased
by ethane and propane, but are virtually eliminated by including nitrogen or hydrogen in the fuel.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
MCTAGGART-COWAN, G.P. ... et al, 2010. The influence of fuel composition on a heavy-duty, natural-gas direct-injection engine. Fuel, 89 (3), pp.752-759.