Prediction of a V-8 diesel engine's structural radiated noise and research of important parameters' effects on the engine's acoustic behaviors

Hui Hua Feng; Zhi Yuan Zhang; Shou Wei Lu; Zheng Xing Zuo

Prediction of a V-8 diesel engine's structural radiated noise and research of important parameters' effects on the engine's acoustic behaviors

Hui Hua Feng^*, Zhi Yuan Zhang, Shou Wei Lu, Zheng Xing Zuo

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Based on the coupled boundary element method-finite element method (BEM-FEM) method and the acoustic transfer vector (ATV) technology, BEM/FEM model is proposed for a V-type eight cylinders engine acoustic radiation simulating analysis under semi-anechoic condition. Acoustic radiation power, field points sound pressure level and panel contributions are calculated by acoustic radiation response analysis. Additionally, based on the engine acoustic performance, different acoustic behaviors of engine are studied by changing engine materials, oil pan structures as well as geometry parameters. The acoustic performance of this engine is predicted and the influence of material, structural and geometry parameters on engine radiated noise are generalized. The principle will guide the design and optimization of the engine prototype in further work.

Original language	English
Pages (from-to)	365-371
Number of pages	7
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	20
Issue number	3
Publication status	Published - Sept 2011

Keywords

Acoustic contribution
Acoustic optimization
Acoustic transfer vector
Boundary element method
Diesel engine
Finite element method

Cite this

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title = "Prediction of a V-8 diesel engine's structural radiated noise and research of important parameters' effects on the engine's acoustic behaviors",

abstract = "Based on the coupled boundary element method-finite element method (BEM-FEM) method and the acoustic transfer vector (ATV) technology, BEM/FEM model is proposed for a V-type eight cylinders engine acoustic radiation simulating analysis under semi-anechoic condition. Acoustic radiation power, field points sound pressure level and panel contributions are calculated by acoustic radiation response analysis. Additionally, based on the engine acoustic performance, different acoustic behaviors of engine are studied by changing engine materials, oil pan structures as well as geometry parameters. The acoustic performance of this engine is predicted and the influence of material, structural and geometry parameters on engine radiated noise are generalized. The principle will guide the design and optimization of the engine prototype in further work.",

keywords = "Acoustic contribution, Acoustic optimization, Acoustic transfer vector, Boundary element method, Diesel engine, Finite element method",

author = "Feng, {Hui Hua} and Zhang, {Zhi Yuan} and Lu, {Shou Wei} and Zuo, {Zheng Xing}",

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AU - Zhang, Zhi Yuan

AU - Lu, Shou Wei

AU - Zuo, Zheng Xing

PY - 2011/9

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N2 - Based on the coupled boundary element method-finite element method (BEM-FEM) method and the acoustic transfer vector (ATV) technology, BEM/FEM model is proposed for a V-type eight cylinders engine acoustic radiation simulating analysis under semi-anechoic condition. Acoustic radiation power, field points sound pressure level and panel contributions are calculated by acoustic radiation response analysis. Additionally, based on the engine acoustic performance, different acoustic behaviors of engine are studied by changing engine materials, oil pan structures as well as geometry parameters. The acoustic performance of this engine is predicted and the influence of material, structural and geometry parameters on engine radiated noise are generalized. The principle will guide the design and optimization of the engine prototype in further work.

AB - Based on the coupled boundary element method-finite element method (BEM-FEM) method and the acoustic transfer vector (ATV) technology, BEM/FEM model is proposed for a V-type eight cylinders engine acoustic radiation simulating analysis under semi-anechoic condition. Acoustic radiation power, field points sound pressure level and panel contributions are calculated by acoustic radiation response analysis. Additionally, based on the engine acoustic performance, different acoustic behaviors of engine are studied by changing engine materials, oil pan structures as well as geometry parameters. The acoustic performance of this engine is predicted and the influence of material, structural and geometry parameters on engine radiated noise are generalized. The principle will guide the design and optimization of the engine prototype in further work.

KW - Acoustic contribution

KW - Acoustic optimization

KW - Acoustic transfer vector

KW - Boundary element method

KW - Diesel engine

KW - Finite element method

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JF - Journal of Beijing Institute of Technology (English Edition)

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Prediction of a V-8 diesel engine's structural radiated noise and research of important parameters' effects on the engine's acoustic behaviors

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Keywords

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