Transient testing of soy methyl ester fuels in an indirect injection,compression ignition engine |
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Authors: | D. L. Purcell B. T. McClure J. McDonald Hemendra N. Basu |
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Affiliation: | (1) Twin Cities Research Center, U.S. Bureau of Mines, 55417 Minneapolis, Minnesota;(2) Oils Research Laboratory, ARS, 56258 Marshall, Minnesota;(3) 1016 Cromwell Ave., 55114 St. Paul, MN;(4) Present address: Calgene Chemical, 60076 Skokie, IL |
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Abstract: | An evaluation of the exhaust emissions from a compression ignition engine for fuels composed of 100 and 30% methyl esters of soy oil (SME) is described. These fuels were compared with a low-sulfur, petroleum #2 diesel fuel in a Caterpillar 3304, prechamber, 75 kW diesel engine, operated over heavy- and light-duty transient test cycles developed by the United States Bureau of Mines. More than 60 h of testing was performed on each fuel. The objective was to determine the influence of the fuels upon diesel particulate matter (DPM) and gaseous emissions. The effect of a modern diesel oxidation catalyst (DOC) also was determined in an effort to minimize emissions. Neat SME produced a higher volatile fraction of the DPM, but much less carbon soot fraction, leading to overall DPM reductions of 23 to 30% for the light- and heavy-duty transients. The DOC further reduced the volatile fraction and the total DPM. The SME fuel reduced gaseous emissions of CO by 23% and hydrocarbons by over 30% without increasing NOx. The DOC further reduced CO and hydrocarbon levels. Mutagenicity of the SME exhaust was low. Results indicate that SME fuel, used with a proper DOC, may be a feasible emission reduction technology for underground mines. References to specific products do not imply endorsement by the U.S. Bureau of Mines, a now defunct agency. |
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Keywords: | Diesel diesel exhaust emissions methyl esters soy oil vegetable oil |
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