Investigation on characteristics of ionization current in a spark-ignition engine fueled with natural gas–hydrogen blends with BSS de-noising method

Investigation on ionization current characteristic in a spark-ignition engine fueled with natural gas, natural gas–hydrogen bends and gasoline was conducted. Blind Source Separation (BSS) de-noising method is employed to separate the ionization current signal from the interference of spark tail gene...

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Published in:International journal of hydrogen energy 2010-12, Vol.35 (23), p.12918-12929
Main Authors: Gao, Zhongquan, Wu, Xiaomin, Gao, Hui, Liu, Bing, Wang, Jie, Meng, Xiangwen, Huang, Zuohua
Format: Article
Language:English
Subjects:
Alternative fuels. Production and utilization
Amplitudes
Applied sciences
Blends
BSS de-noising method
Cylinders
Energy
Engines
Exact sciences and technology
Fuels
Gasoline
Hydrogen
Ionization
Ionization current
Natural gas
Natural gas–hydrogen blends
Polymer blends
Spark-ignition engine
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container_issue 23
container_start_page 12918
container_title International journal of hydrogen energy
container_volume 35
creator Gao, Zhongquan
Wu, Xiaomin
Gao, Hui
Liu, Bing
Wang, Jie
Meng, Xiangwen
Huang, Zuohua
description Investigation on ionization current characteristic in a spark-ignition engine fueled with natural gas, natural gas–hydrogen bends and gasoline was conducted. Blind Source Separation (BSS) de-noising method is employed to separate the ionization current signal from the interference of spark tail generated by ignition discharge. Cylinder pressure was recorded, and local temperature at spark plug gap is calculated using AVL-FIRE simulation code. Results show that the simulated cylinder pressures are in good agreement with those of measured and the spark tail and ionization current can be separated using BSS method. Front flame stage and post flame stage in ionization current can be used to analyze the combustion characteristics of natural gas–hydrogen blends. De-noised current shows that the appearance of front flame stage and post flame stage (including the peaks in the stages) fueled with natural gas is postponed and compared with that fueled with gasoline, and the appearance of front flame stage and post flame stage advance with the increase of hydrogen fraction in natural gas–hydrogen blends. In addition, the amplitude of ionization currents in both front flame and post flame (including the two peaks) fueled with natural gas gives lower values compared with those fueled with gasoline and hydrogen addition can increase the amplitude. Maximum post flame current shows similar trend to maximum cylinder pressure and it has good correlation between the timing of maximum post flame current and the timing of maximum cylinder pressure. High correlation coefficient between maximum post flame current and maximum pressure is presented.
doi_str_mv 10.1016/j.ijhydene.2010.08.129
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Blind Source Separation (BSS) de-noising method is employed to separate the ionization current signal from the interference of spark tail generated by ignition discharge. Cylinder pressure was recorded, and local temperature at spark plug gap is calculated using AVL-FIRE simulation code. Results show that the simulated cylinder pressures are in good agreement with those of measured and the spark tail and ionization current can be separated using BSS method. Front flame stage and post flame stage in ionization current can be used to analyze the combustion characteristics of natural gas–hydrogen blends. De-noised current shows that the appearance of front flame stage and post flame stage (including the peaks in the stages) fueled with natural gas is postponed and compared with that fueled with gasoline, and the appearance of front flame stage and post flame stage advance with the increase of hydrogen fraction in natural gas–hydrogen blends. 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subjects Alternative fuels. Production and utilization
Amplitudes
Applied sciences
Blends
BSS de-noising method
Cylinders
Energy
Engines
Exact sciences and technology
Fuels
Gasoline
Hydrogen
Ionization
Ionization current
Natural gas
Natural gas–hydrogen blends
Polymer blends
Spark-ignition engine
title Investigation on characteristics of ionization current in a spark-ignition engine fueled with natural gas–hydrogen blends with BSS de-noising method
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