Abstract
The importance of adding a naphthene in the form of cyclohexane in surrogate mixtures to emulate homogeneous ignition of fully blended research gasoline has been examined with kinetic modeling. On the basis of a nonlinear by volume octane blending model and a correlation of anti-knock index to simulated ignition delay time, a quinary surrogate mixture, including cyclohexane, primary reference fuel (PRF), toluene, and diisobutylene (DIB-1), has been formulated that matches the research octane number, motor octane number, and H/C ratio of the target fuel. Simulated ignition delay times for the quinary mixture and a quaternary mixture without cyclohexane have been compared to measured data for the target fuel in a shock tube and rapid compression machine. Kinetic analysis shows that there is an increased production of HO2 during the induction period for the quinary mixture. This leads to an increased OH production/consumption ratio for PRF, toluene, and DIB-1 in the quinary mixture. Simulated homogeneous cha...
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