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On the permissibility of approximating irregular cavity geometries by rectangular boxes and cylinders.

Author(s) : LAI P. C. C., SOEDEL W., GILLIAM D., ROY P.

Summary

A general procedure for the three dimensional analysis of a gas cavity by the concept of four pole parameters has been developed by Kim and Soedel; the procedure was later extended by Lai and Soedel to two dimensional analysis, which is more efficient in computation than the 3-D analysis method and can solve some geometries which are difficult to solve by the 3-D method. In the study, the above procedures are applied to a realistic compressor head with irregular corners, flow obstacles, and a bullet shaped muffler by idealized rectangular box and circular cylinder approximations. The experimental tests are performed, discussed in the paper, and compared to the simulation results. The comparisons demonstrate the limitations of an overly idealized theoretical shape analysis for practical applications. Certain response frequencies which shift between idealized theory and experimental data are traced to certain acoustic path constrictions in the compressor head and the muffler which result in a geometric deviation from the idealized box and bullet shapes. It is concluded that while idealized shape approximations are useful for a qualitative understanding of gas pulsation muffling behavior, precise geometric modeling is needed for precise predictions. Or one has to rely on transfer function measurements.

Details

  • Original title: On the permissibility of approximating irregular cavity geometries by rectangular boxes and cylinders.
  • Record ID : 1997-0224
  • Languages: English
  • Source: Proceedings of the 1996 International Compressor Engineering Conference at Purdue.
  • Publication date: 1996/07/23
  • Document available for consultation in the library of the IIR headquarters only.

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