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Mode Switch of SI-HCCI Combustion on a GDI Engine
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<div class="htmlview paragraph">Multi-mode combustion is an ideal combustion strategy to utilize HCCI for internal combustion engines. It combines HCCI combustion mode for low-middle load and traditional SI mode for high load and high speed. By changing the cam profiles from normal overlap for SI mode to the negative valve overlap (NVO) for HCCI mode, as well as the adjustment of direct injection strategy, the combustion mode transition between SI and HCCI was realized in one engine cycle. By two-step cam switch, the throttle action is separated from the cam action, which ensures the stabilization of mode transition. For validating the feasibility of the stepped switch, the influence of throttle position on HCCI combustion was carefully studied. Based on the research, the combustion mode switch was realized in one engine cycle; the whole switch process including throttle action was realized in 10 cycles. The entire process was smooth, rapid and reliable without any abnormal combustion such as knocking and misfiring.</div>
SAE International
Title: Mode Switch of SI-HCCI Combustion on a GDI Engine
Description:
<div class="htmlview paragraph">Multi-mode combustion is an ideal combustion strategy to utilize HCCI for internal combustion engines.
It combines HCCI combustion mode for low-middle load and traditional SI mode for high load and high speed.
By changing the cam profiles from normal overlap for SI mode to the negative valve overlap (NVO) for HCCI mode, as well as the adjustment of direct injection strategy, the combustion mode transition between SI and HCCI was realized in one engine cycle.
By two-step cam switch, the throttle action is separated from the cam action, which ensures the stabilization of mode transition.
For validating the feasibility of the stepped switch, the influence of throttle position on HCCI combustion was carefully studied.
Based on the research, the combustion mode switch was realized in one engine cycle; the whole switch process including throttle action was realized in 10 cycles.
The entire process was smooth, rapid and reliable without any abnormal combustion such as knocking and misfiring.
</div>.
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