Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7175424 | International Journal of Refrigeration | 2018 | 42 Pages |
Abstract
Intermittent gas flow generates pressure oscillations in the twin-screw refrigeration compressor that cause serious problems such as structural vibration and noise. In order to reduce the amplitude of this pressure pulsation, a pressure pulsation dampener (PPD) applied in the discharge chamber of a twin screw refrigeration compressor was proposed based on the theory of Helmholtz resonator. A mathematical model was developed to design an optimal PPD by incorporating the R134-oil mixture sound speed model and the pressure pulsation simulation model. A comprehensive experimental study was then performed to validate the model and evaluate the effect of key parameters such as oil flow rate and cavity volume on attenuation performance of the PPD. Vibrational characteristics of the compressor equipped with and without the PPD were also measured and compared. Under the design frequency of 250âHz, the vibrational acceleration of compressor under-chassis reduced by 36.2% to 41.1% when the compressor was fitted with the proposed PPD.
Related Topics
Physical Sciences and Engineering
Engineering
Mechanical Engineering
Authors
Xiaokun Wu, Ziwen Xing, Wenqing Chen, Xiaolin Wang,