RT Journal Article ID 1cd68edd53d20305 A1 Al-Harbi, Ahmed A. A1 Alenazey, Feraih Sheradh A1 Migoun, Alexei N. A1 Dmitrenko, Yuri M. A1 Zhdanok, Serguei A. T1 REDUCING POLLUTION EMISSIONS BY ADDING SYNGAS GENERATED BY A PLASMA-ASSISTED GASOLINE CONVERTER IN THE INTAKE MANIFOLD OF A GASOLINE ENGINE WITH ELECTRONIC FUEL INJECTION SYSTEM JF Heat Transfer Research JO HTR YR 2016 FD 2016-09-20 VO 47 IS 11 SP 1073 OP 1082 K1 pollution K1 emission K1 combustion K1 engine K1 syngas K1 plasma AB The objectives of this study were to determine the performance and exhaust emissions of a gasoline engine with a fuel injection system (Subaru EH72 FI) modified for operation with addition of some amount of synthethis gas ("syngas") containing hydrogen in the intake manifold and to compare the results with those obtained for gasoline operation at the same engine load and crankshaft speed. As the engine working load, Endress ESE 1506 DSG-GT ES DUPLEX electric generator with effective output in the range from 3 to 15 kW is used. Syngas was generated by partial oxidation of gasoline with air in a plasma-assisted fuel converter. Steam was added to the gasoline−air converter fuel mixture to reduce the amount of soot produced in a plasma reactor, and thereby increase its reliability and operational life. A completely automated engine and plasma converter test bench was developed. Experimental results clearly demonstrate substantial reduction in the NOx engine emissions when hydrogen-rich synthesis gas generated by a plasma-assisted fuel converter was added to the intake manifold of the tested engine. The most prominent reduction in harmfull pollutions is observed for lean conditions. Meanwhile total gasoline consumption (including gasoline needed for the plasma-assisted converter) with syngas addition increases compared to the original engine. This increase ranges from 1.05 for a stochiometric composition of the fuel mixture to 1.15 times for a lean mixture (excess air coefficient of the fuel mixture λ = 1.26). As a continuation of this work, investigations of ultralean regimes (λ ~ 1.43−1.67) are scheduled to validate the theoretical results obtained in (Migun et al., 2006). PB Begell House LK https://www.dl.begellhouse.com/journals/46784ef93dddff27,4d60ef1c722bb89b,1cd68edd53d20305.html