发动机缸体振动:汽缸发动机的敲击声指示

IF 1.2 Q3 ENGINEERING, MECHANICAL
A. Joseph, G. Thampi
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引用次数: 0

摘要

影响爆震开始的因素对SI发动机的性能有很大的影响。因此,确定爆震发生和控制爆震的有效性是提高发动机性能的关键因素。本文利用经验模态分解和短时傅里叶变换深入研究了发动机机体振动在确定爆震发生中的作用。为了了解发动机在正常燃烧和爆震条件下的振动特性,对发动机缸体振动信号进行了分析,并与气缸压力波动进行了比较。利用经验模态分解方法从发动机机体振动信号中提取爆震特征。由此得到的第一个本征模态函数(IMF)用于生成用于检测爆震发生的希尔伯特谱。同样,对第一个IMF进行短时傅里叶变换,得到谱图。研究结果明确表明,当爆震发生时,会产生更高的频率变化。这些结果还表明,经验模态分解和短时傅里叶变换相结合可以有效地用于确定爆震的发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Engine block vibrations: An indicator of knocking in the SI engine
The factors influencing the onset of knocking have a significant impact on how well a SI engine performs. Hence, the efficacy in determining the onset and controlling of knock is a key factor in improving the SI engine's performance. This paper provides insight into the role of engine block vibrations in determining the occurrence of knock using Empirical Mode Decomposition and Short-Time Fourier Transform. To comprehend the behaviour of vibration amid normal combustion and knocking conditions, the engine block vibration signals are analyzed and compared with the incylinder pressure fluctuations. The features of knock are extracted from the engine block vibration signals using Empirical Mode Decomposition. The first Intrinsic Mode Function (IMF) thus obtained is used to generate the Hilbert spectrum for detecting the occurrence of knock. Similarly, ShortTime Fourier Transform is also performed on the first IMF to obtain the spectrogram. The findings demonstrate unequivocally that higher frequency variations are produced when knock occurs. These results also indicate that the combination of Empirical Mode Decomposition and Short-Time Fourier Transform can be used effectively for determining the occurrence of knock.
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来源期刊
FME Transactions
FME Transactions ENGINEERING, MECHANICAL-
CiteScore
3.60
自引率
31.20%
发文量
24
审稿时长
12 weeks
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