Mechanism Design of Equivalent Simulation of Cylinder Pressure Load in Reciprocating Compressor Fault System

Shun Gen Xiao; Meng Meng Song; Xiao Hu Sang; Li Xia Huang; Hong Long Chen; Tao Qiu

doi:10.4028/www.scientific.net/AMM.893.84

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 893Mechanism Design of Equivalent Simulation of...

Mechanism Design of Equivalent Simulation of Cylinder Pressure Load in Reciprocating Compressor Fault System

Abstract:

In this paper, by designing a new type of mechanism, the time-varying cylinder load ofthe reciprocating compressor is simulated. The time-varying cylinder pressure load includes fourprocesses of expansion, suction, compression and exhaust, where the pressure of the expansionprocess is gradually reduced until it is equal to the suction pressure, and the pressures of the suctionand exhaust processes are almost constant. The pressure of the compression process is graduallyincreased until it is equal to the exhaust pressure value. Through the motion simulation of themechanism, four processes of time-varying cylinder pressure load can be realized. This newmechanism will provide new ideas for the time-varying load involved in the simulation of thereciprocating compressor fault test bench.

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Periodical:

Applied Mechanics and Materials (Volume 893)

Pages:

84-88

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.893.84

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Online since:

July 2019

Authors:

Shun Gen Xiao, Meng Meng Song*, Xiao Hu Sang, Li Xia Huang, Hong Long Chen, Tao Qiu

Keywords:

Cylinder Pressure Load, Mechanism Design, Reciprocating Compressor, Simulation

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References

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