Experimental observation of the TJI-initiated HPDI gas combustion: Vertically crossed flame jet and methane jet

Lijia Zhong , Wanhui Zhao , Haiqiao Wei , Lei Zhou
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Abstract

In the field of natural gas marine engines, the high-pressure direct injection (HPDI) technology is widely used to achieve emission reduction while maintaining equivalent thermal efficiency and power output compared to diesel engines. In these engines, the in-cylinder combustion is primarily initiated by the diesel spray flame near the top dead center (TDC). In the present work, pre-chamber turbulent jet ignition (TJI) is employed to substitute diesel injection to initiate the combustion of HPDI methane jets. The optical experiments of ignition and flame development in the TJI-HPDI system with various injector configurations and injection/ignition control parameters are conducted in a constant-volume combustion chamber (CVCC). It is revealed that with the increase of injection-ignition delay(ti), three ignition modes are observed sequentially: methane jet suppresses ignition, methane jet first suppresses ignition then promotes flame propagation, and direct ignition and promoted flame propagation. The effect of various injection-ignition delays and injection pulse width were explored. The injection-ignition delay significantly influences the combustion characteristics such as heat release rate, while the injection pulse width influences the duration of the lifted jet flame. The flame lift-off length first decreases and then increases due to variations in thermodynamic conditions and oxygen concentration. With a larger-nozzle injector, the critical injection-ignition delay to initiate the main chamber combustion is significantly reduced. Moreover, the use of different nozzle diameters leads to varying levels of turbulent intensity in the methane jet, which in turn affects the combustion behavior.

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tji引发HPDI气体燃烧的实验观察:垂直交叉火焰射流和甲烷射流
在船用天然气发动机领域,高压直喷(HPDI)技术被广泛用于实现减排,同时与柴油发动机相比保持同等的热效率和功率输出。在这些发动机中,缸内燃烧主要由上止点(TDC)附近的柴油喷雾火焰引发。本工作采用预燃室湍流射流点火(TJI)代替柴油喷射来启动HPDI甲烷射流的燃烧。在定容燃烧室(CVCC)中进行了TJI-HPDI系统在不同喷射器配置和喷射/点火控制参数下的点火和火焰发展的光学实验。结果表明,随着喷射点火延迟(ti)的增加,依次观察到三种点火模式:甲烷射流抑制点火,甲烷射流先抑制点火后促进火焰传播,直接点火促进火焰传播。探讨了不同喷射点火延迟和喷射脉冲宽度的影响。喷射点火延迟显著影响燃烧特性,如热释放率,而喷射脉冲宽度影响提升射流火焰的持续时间。由于热力学条件和氧气浓度的变化,火焰起升长度首先减小,然后增大。使用更大的喷嘴喷射器,启动主室燃烧的临界喷射点火延迟显著减少。此外,使用不同的喷嘴直径会导致甲烷射流中湍流强度的变化,进而影响燃烧行为。
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