Influences of Butanol Blends on Combustion and Emissions of a Small SI Engine

Jan Czerwinski; Martin Güdel; Danilo Engelmann; Martin Pechout

doi:10.4271/2018-32-0058

In the general efforts to replace the fossil fuels in transportation by renewable fuels the bioalcohols are an important alternative. The global share of Bioethanol used for transportation is continuously increasing. Butanol, a four-carbon alcohol, is considered in the last years as an interesting alternative fuel, both for Diesel and for Gasoline application. Its advantages for engine operation are: good miscibility with gasoline and diesel fuels, higher calorific value than Ethanol, lower hygroscopicity, lower corrosivity and possibility of replacing aviation fuels.

In the present work research with different nButanol portions in gasoline (BuXX)^* was performed on the 2-cylinder SI engine with variations of several parameters on engine dynamometer. At different steady state operating points were varied: spark timing (α_z), air excess factor (λ) and EGR-rate. Furthermore, the conversion rates and light-off of a 3-way-catalyst were investigated. As research tools the combustion pressure indication and the exhaust gas analysis were used.

In the steady state operation, it was found that Bu-blends generally reduce the emissions of CO, HC, NO_x in untreated exhaust gas and have a very little influence on catalytic conversion rates of the 3-way-catalyst. At lower engine part load, “Bu” shortens the inflammation lag and reduces the cyclic dispersion of combustion. Nevertheless, this advantage disappears at higher engine loads and with higher “Bu” portions.

The present paper shows some examples of the most important results.

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Influences of Butanol Blends on Combustion and Emissions of a Small SI Engine 2018-32-0058

SAE MOBILUS