Book Description
Homogeneous charge compression ignition (HCCI) engines have great potential in high efficiency with ultra-low NOx and particulates emissions. Therefore, fundamentals of HCCI and the control techniques of changing initial temperature, equivalence ratio, exhaust gas recirculation (EGR) rate and fuel reforming rate are examined using a single-zone well-stirred reactor model of an ethanol engine. In particular, the expansion of the Acceptable Operating Range (AOR) using fuel reforming, complemented by EGR, is investigated. It is found that reforming extends the complete combustion limit of the AOR, but shrinks the NOx emission limit. Reforming is also less effective than EGR in widening the AOR at the conditions studied. Therefore, reforming should be used only at temperatures near the ignition limit to enhance combustion. It is recommended that other control techniques, such as using different fuel and additives, and stratified charge combustion should be tested using a more sophisticated multi-zone well-stirred reactor model.