Study on torsional vibration characteristics of crankshaft in variable displacement diesel engine

Shou Ping Yang; Fu Jun Zhang; Chang Lu Zhao; Ying Huang; Zhen Yu Zhang; Zhe Zuo

Study on torsional vibration characteristics of crankshaft in variable displacement diesel engine

Shou Ping Yang^*, Fu Jun Zhang, Chang Lu Zhao, Ying Huang, Zhen Yu Zhang, Zhe Zuo

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

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

5 Citations (Scopus)

Abstract

In order to investigate the torsional vibration characteristics of the variable displacement diesel engine and explore the best variable displacement schemes, a co-simulation model of a V6 diesel engine crankshaft system is built by using GT-SUITE software and validated by experiments. Various displacement schemes under 10%~50% of engine load are simulated respectively. The results indicate that the torsional vibration angle displacement amplitude of crankshaft under cylinder deactivation increases greatly, which mainly consists of low order rolling vibrations; the fuel cut-off scheme is better than the valve cut-off scheme with the same cylinder deactivation numbers, while the additional torsional vibration stress is slightly larger than the latter's. The fuel cut-off scheme with uniform firing interval has the best torsional vibrational performance.

Original language	English
Pages (from-to)	1047-1052
Number of pages	6
Journal	Binggong Xuebao/Acta Armamentarii
Volume	32
Issue number	9
Publication status	Published - Sept 2011

Keywords

Co-simulation
Cylinder deactivation
Power machinery engineering
Torsion vibration characteristics
Variable displacement

Cite this

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title = "Study on torsional vibration characteristics of crankshaft in variable displacement diesel engine",

abstract = "In order to investigate the torsional vibration characteristics of the variable displacement diesel engine and explore the best variable displacement schemes, a co-simulation model of a V6 diesel engine crankshaft system is built by using GT-SUITE software and validated by experiments. Various displacement schemes under 10%~50% of engine load are simulated respectively. The results indicate that the torsional vibration angle displacement amplitude of crankshaft under cylinder deactivation increases greatly, which mainly consists of low order rolling vibrations; the fuel cut-off scheme is better than the valve cut-off scheme with the same cylinder deactivation numbers, while the additional torsional vibration stress is slightly larger than the latter's. The fuel cut-off scheme with uniform firing interval has the best torsional vibrational performance.",

keywords = "Co-simulation, Cylinder deactivation, Power machinery engineering, Torsion vibration characteristics, Variable displacement",

author = "Yang, {Shou Ping} and Zhang, {Fu Jun} and Zhao, {Chang Lu} and Ying Huang and Zhang, {Zhen Yu} and Zhe Zuo",

year = "2011",

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language = "English",

volume = "32",

pages = "1047--1052",

journal = "Binggong Xuebao/Acta Armamentarii",

issn = "1000-1093",

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T1 - Study on torsional vibration characteristics of crankshaft in variable displacement diesel engine

AU - Yang, Shou Ping

AU - Zhang, Fu Jun

AU - Zhao, Chang Lu

AU - Huang, Ying

AU - Zhang, Zhen Yu

AU - Zuo, Zhe

PY - 2011/9

Y1 - 2011/9

N2 - In order to investigate the torsional vibration characteristics of the variable displacement diesel engine and explore the best variable displacement schemes, a co-simulation model of a V6 diesel engine crankshaft system is built by using GT-SUITE software and validated by experiments. Various displacement schemes under 10%~50% of engine load are simulated respectively. The results indicate that the torsional vibration angle displacement amplitude of crankshaft under cylinder deactivation increases greatly, which mainly consists of low order rolling vibrations; the fuel cut-off scheme is better than the valve cut-off scheme with the same cylinder deactivation numbers, while the additional torsional vibration stress is slightly larger than the latter's. The fuel cut-off scheme with uniform firing interval has the best torsional vibrational performance.

AB - In order to investigate the torsional vibration characteristics of the variable displacement diesel engine and explore the best variable displacement schemes, a co-simulation model of a V6 diesel engine crankshaft system is built by using GT-SUITE software and validated by experiments. Various displacement schemes under 10%~50% of engine load are simulated respectively. The results indicate that the torsional vibration angle displacement amplitude of crankshaft under cylinder deactivation increases greatly, which mainly consists of low order rolling vibrations; the fuel cut-off scheme is better than the valve cut-off scheme with the same cylinder deactivation numbers, while the additional torsional vibration stress is slightly larger than the latter's. The fuel cut-off scheme with uniform firing interval has the best torsional vibrational performance.

KW - Co-simulation

KW - Cylinder deactivation

KW - Power machinery engineering

KW - Torsion vibration characteristics

KW - Variable displacement

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Study on torsional vibration characteristics of crankshaft in variable displacement diesel engine

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Keywords

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