MULTILEVEL-MULTIGRID ALGORITHM FOR AXISYMMETRIC RECIRCULATING FLOWS.

R. E. Phillips, T. F. Miller, F. W. Schmidt

Research output: Contribution to conferencePaper

6 Citations (Scopus)

Abstract

A multilevel-multigrid computational algorithm is described for axisymmetric recirculating flows. A brief discussion of the basic theory of the multilevel fast solver method is presented. The method is used to calculate two flow fields. The first involves laminar flow in a contraction while the second is a turbulent flow in an expansion. The predictions are compared with experimental data. The influence of different iterative schemes on the computational times is also presented.

Original languageEnglish (US)
Pages20. 21-20. 25
StatePublished - Dec 1 1985

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Laminar flow
Turbulent flow
Flow fields

All Science Journal Classification (ASJC) codes

  • Engineering(all)

Cite this

Phillips, R. E., Miller, T. F., & Schmidt, F. W. (1985). MULTILEVEL-MULTIGRID ALGORITHM FOR AXISYMMETRIC RECIRCULATING FLOWS.. 20. 21-20. 25.
Phillips, R. E. ; Miller, T. F. ; Schmidt, F. W. / MULTILEVEL-MULTIGRID ALGORITHM FOR AXISYMMETRIC RECIRCULATING FLOWS.
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Phillips, RE, Miller, TF & Schmidt, FW 1985, 'MULTILEVEL-MULTIGRID ALGORITHM FOR AXISYMMETRIC RECIRCULATING FLOWS.', pp. 20. 21-20. 25.

MULTILEVEL-MULTIGRID ALGORITHM FOR AXISYMMETRIC RECIRCULATING FLOWS. / Phillips, R. E.; Miller, T. F.; Schmidt, F. W.

1985. 20. 21-20. 25.

Research output: Contribution to conferencePaper

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