DOI: 10.53941/ijamm.2026.100021 ISSN: 2653-777X

Investigation of the Influence of Active Pre-Chamber Fuel Injection Strategy Considering Flame Kernel Position on the In-Cylinder Combustion

Shaotong Wang, Yang Lv, Tianyang Liu, Qiuyu Liu, Xikang Zhang, Jiayang Wang, Zhe Kang

Lean combustion improves thermal efficiency by increasing the specific heat ratio and reducing pumping and heat transfer losses. However, it is limited by the lean-burn limit. Among potential solutions, pre-chamber turbulent jet ignition (TJI) combines high-energy ignition and mixture stratification, offering large ignition energy and fast flame propagation. An active pre-chamber, equipped with a fuel injector to precisely control the mixture, is more complex than a passive one but significantly extends the lean-burn limit, thereby improving efficiency and reducing emissions. Using 3D Computational Fluid Dynamics (CFD) method with detailed chemical kinetics, this study investigates the effects and underlying mechanisms of pre-chamber injection pressure, timing, and spark plug position on combustion in a hybrid dedicated gasoline engine. Injection pressure governs mixture formation: low pressure causes poor atomization; high pressure reduces mixing efficiency due to small pre-chamber volume; moderate pressure provides a near-stoichiometric mixture at the spark plug. Injection timing trades off mixture homogeneity and combustion phasing: too early leaks mixture to the main-chamber; too late causes stratification; moderate timing achieves a well-mixed pre-chamber charge and symmetric rapid jet flames, yielding higher peak pressure and internal thermal efficiency. Changing spark plug position has two distinct effects. First, altered pre-chamber geometry affects fuel diffusion and mixture distribution. Second, shifted flame kernel location influences flame propagation and jet symmetry. However, when the mixture is highly non-uniform, the kernel location effect is masked. Thus, pre-chamber design must ensure a uniformly distributed, combustible mixture while minimizing fuel leakage to the main-chamber.

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