Backfire prediction in a manifold injection hydrogen internal combustion engine

Xing hua Liu; Fu shui Liu; Lei Zhou; Bai gang Sun; Harold J. Schock

doi:10.1016/j.ijhydene.2008.04.051

Backfire prediction in a manifold injection hydrogen internal combustion engine

Xing hua Liu, Fu shui Liu, Lei Zhou^*, Bai gang Sun, Harold J. Schock

^*此作品的通讯作者

机械与车辆学院

科研成果: 期刊稿件 › 文章 › 同行评审

96 引用（Scopus）

摘要

Hydrogen internal combustion engine (H2ICE) easily occur inlet manifold backfire and other abnormal combustion phenomena because of the low ignition energy, wide flammability range and rapid combustion speed of hydrogen. In this paper, the effect of injection timing on mixture formation in a manifold injection H2ICE was studied in various engine speed and equivalence ratio by CFD simulation. It was concluded that H2ICE of manifold injection have an limited injection end timing in order to prevent backfire in the inlet manifold. Finally, the limit of injection end timing of the H2ICE was proposed and validated by engine experiment.

源语言	英语
页（从-至）	3847-3855
页数	9
期刊	International Journal of Hydrogen Energy
卷	33
期	14
DOI	https://doi.org/10.1016/j.ijhydene.2008.04.051
出版状态	已出版 - 7月 2008

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Liu, X. H., Liu, F. S., Zhou, L., Sun, B. G., & Schock, H. J. (2008). Backfire prediction in a manifold injection hydrogen internal combustion engine. International Journal of Hydrogen Energy, 33(14), 3847-3855. https://doi.org/10.1016/j.ijhydene.2008.04.051

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title = "Backfire prediction in a manifold injection hydrogen internal combustion engine",

abstract = "Hydrogen internal combustion engine (H2ICE) easily occur inlet manifold backfire and other abnormal combustion phenomena because of the low ignition energy, wide flammability range and rapid combustion speed of hydrogen. In this paper, the effect of injection timing on mixture formation in a manifold injection H2ICE was studied in various engine speed and equivalence ratio by CFD simulation. It was concluded that H2ICE of manifold injection have an limited injection end timing in order to prevent backfire in the inlet manifold. Finally, the limit of injection end timing of the H2ICE was proposed and validated by engine experiment.",

keywords = "Backfire, CFD, Hydrogen internal combustion engine (H2ICE), Injection timing, Simulation",

author = "Liu, {Xing hua} and Liu, {Fu shui} and Lei Zhou and Sun, {Bai gang} and Schock, {Harold J.}",

year = "2008",

month = jul,

doi = "10.1016/j.ijhydene.2008.04.051",

language = "English",

volume = "33",

pages = "3847--3855",

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AU - Liu, Xing hua

AU - Liu, Fu shui

AU - Zhou, Lei

AU - Sun, Bai gang

AU - Schock, Harold J.

PY - 2008/7

Y1 - 2008/7

N2 - Hydrogen internal combustion engine (H2ICE) easily occur inlet manifold backfire and other abnormal combustion phenomena because of the low ignition energy, wide flammability range and rapid combustion speed of hydrogen. In this paper, the effect of injection timing on mixture formation in a manifold injection H2ICE was studied in various engine speed and equivalence ratio by CFD simulation. It was concluded that H2ICE of manifold injection have an limited injection end timing in order to prevent backfire in the inlet manifold. Finally, the limit of injection end timing of the H2ICE was proposed and validated by engine experiment.

AB - Hydrogen internal combustion engine (H2ICE) easily occur inlet manifold backfire and other abnormal combustion phenomena because of the low ignition energy, wide flammability range and rapid combustion speed of hydrogen. In this paper, the effect of injection timing on mixture formation in a manifold injection H2ICE was studied in various engine speed and equivalence ratio by CFD simulation. It was concluded that H2ICE of manifold injection have an limited injection end timing in order to prevent backfire in the inlet manifold. Finally, the limit of injection end timing of the H2ICE was proposed and validated by engine experiment.

KW - Backfire

KW - CFD

KW - Hydrogen internal combustion engine (H2ICE)

KW - Injection timing

KW - Simulation

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U2 - 10.1016/j.ijhydene.2008.04.051

DO - 10.1016/j.ijhydene.2008.04.051

M3 - Article

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SN - 0360-3199

VL - 33

SP - 3847

EP - 3855

JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

IS - 14

ER -

Backfire prediction in a manifold injection hydrogen internal combustion engine

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