Korean Journal of Air-Conditioning and Refrigeration Engineering (설비공학논문집)

The Society of Air-Conditioning and Refrigerating Engineers of Korea (대한설비공학회)
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Numerical Analysis of the Dynamical Characteristics of Fluid Flow Inside a Pipe with an Accumulator

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  • Published : 2001.05.01
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Abstract

This paper addresses characteristics of compressible flow dynamics inside a pipe with an accumulator and an inlet orifice. It also presents a simple but stable numerical method associated with the accumulator-orifice calculation. In particular, a focus is given to developing a method of finding an optimum design of the accumulator-orifice system (i.e., the accumulator size and the throttle resistance) that gives the most effective dissipation of the water-hammering problem. It is found that there exists indeed an optimum set of parameter values for the most effective dissipation of the wave energy.

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References

  1. Trans. KSME v.12 no.5 A study on fluid transient accompanying column separation in oil hydraulic pipeline Yum, M. O.;Lee, J. K.;Lee, I. Y.;Kim, H. K.
  2. Korean Journal of Air-Conditioning and Refrigeration Engineering v.4 no.1 Design and performance prediction of an air chamber for reduction of water hammering Kang, S. H.;Ryu, H. S.;Park, M. S.
  3. Trans. KSME v.18 no.9 A study on water hammer phenomena in piping systems of buildings Han, H. T.;Kim, J. M.;Kim, J. P.
  4. Trans. KSME v.19 no.12 Internal flow-induced vibration of a series pipeline Lee,U.;Kim,J.H.
  5. Fluid transients Wylie, E. B.;Streeter, V. L.
  6. ASME J. Basic Engineering v.90 Frequency-dependent friction in transient pipe flow Zielke,W.
  7. ASME J. Fluids Engineering v.97 An efficient method for simulating frequency-dependent friction in transient liquid flow Trikha,A.K.
  8. ASME J. Fluids Engineering v.113 Improving Zielke's method of simulating frequency-dependent friction in laminar liquid pipe flow Suzuki, K.;Taketomi, T.;Sato, S.
  9. ASME J. Fluids Engineering v.115 Improved approximate method for simulating frequency-dependent friction in transient laminar flow Schohl,G.A.