Fuel-reforming effects on a gasoline direct injection engine under a low-temperature combustion mode: Experimental and kinetics analyses

Sok Ratnak; Kusaka Jin

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Fuel-reforming effects on a gasoline direct injection engine under a low-temperature combustion mode: Experimental and kinetics analyses

机译：Fuel-reforming effects on a gasoline direct injection engine under a low-temperature combustion mode: Experimental and kinetics analyses

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Dedicated in-cylinder reforming where gasoline fuel is injected directly into a rich mixture can control the combustion of gasoline engines. This work investigates the effects of injection parameters and in-cylinder fuel reforming on a gasoline direction injection (GDI) engine operated under low-temperature combustion mode. The single-cylinder research engine is modified from a dedicated 4-cylinder spark-ignited engine used in subcompact passenger vehicles. Experimental and kinetics results on direct fuel injection into an oxygen-depleted environ -ment of the engine's recompression interval are analyzed under 0.53 MPa indicated mean effective pressure and 1500 RPM. Zero-dimensional kinetics simulations show that the recompression reactions are net endothermic under near-stoichiometric environments. Substantial short-chain hydrocarbons (CH4, C2H4, C3H6) are reformed, while CO and H-2 are small under the O-2-depleted environment. These kinetics reformates strongly depend on the start of injection timing (SOI). Consequently, the kinetics species shorten predicted ignition delays and play a significant role in advanced combustion phasing. Validated 3D-CFD results further indicate the effects of these reformates on advanced combustion. Experimentally, SOI, injection pressure P-inj = 5 and 6 MPa, single/double pulses injection, and mixture equivalence ratios phi are varied in the recompression and intake strokes. Under phi = 0.97, excessive ringing intensities (RI) over 5 MW/m2 are observed under advanced SOIs. The fierce combustion, excessive combustion noise metrics, NOx emissions can be reduced significantly by retarding SOI, double-pulse injection, and phi variations. Under phi 0.67, measured NO(x )emissions are below 10 ppm. For all pulse-injection strategies, the peak recompression pressures are dropped by up to 13% lower than 2.0 MPa of the motoring pressure, indicating that the net endothermic reactions occur during the recompression. Therefore, the reformed products chemically control the main combustion, and 41 % indicated thermal efficiency is achievable.

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来源
《Energy conversion & management》 |2022年第3期|115304.1-115304.16|共16页
作者
Sok Ratnak; Kusaka Jin;
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作者单位

Waseda Univ, Prop & Energy Syst Lab, Shinjuku Ku, 3-4-1 Okubo, Tokyo 1698555, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
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关键词
Gasoline direct injection; Oxygen-depleted mixture; Low-temperature combustion; In-cylinder fuel reforming; Chemical kinetics simulation;

Fuel-reforming effects on a gasoline direct injection engine under a low-temperature combustion mode: Experimental and kinetics analyses

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