Laminar/turbulent oscillating flow in circular pipes

Laminar/turbulent oscillating flow in circular pipes

A two-dimensional oscillating flow analysis was conducted simulating the gas flow inside Stirling engine heat exchangers. Both laminar and turbulent oscillating pipe flow were investigated numerically for Re max = 1,920 (Va = 80), 10,800 (Va = 272), 19,300 (Va = 272), and 60,800 (Va = 126). The resu...

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Veröffentlicht in:The International journal of heat and fluid flow 1992-12, Vol.13 (4), p.340-346
Hauptverfasser: Ahn, Kyung H., Ibrahim, Mounir B.
Format: Artikel
Sprache:eng
Schlagworte:
computational fluid dynamics
Computational methods
critical Reynolds number
Exact sciences and technology
Flow measurement
Fluid dynamics
Fluid Mechanics And Heat Transfer
Fundamental areas of phenomenology (including applications)
Heat exchangers
Hydrodynamic stability
Laminar flow
Mathematical models
oscillating flows
Oscillations
Physics
Stirling cycle
Turbulent flow
turbulent modeling
Unsteady flow
unsteady flows
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Zusammenfassung:A two-dimensional oscillating flow analysis was conducted simulating the gas flow inside Stirling engine heat exchangers. Both laminar and turbulent oscillating pipe flow were investigated numerically for Re max = 1,920 (Va = 80), 10,800 (Va = 272), 19,300 (Va = 272), and 60,800 (Va = 126). The results are here compared with experimental results of previous investigators. Predictions of the flow regime on present oscillating flow conditions are also checked by comparing velocity amplitudes and phase difference with those from laminar theory and quasi-steady profile. A high Reynolds number k- ϵ turbulence model was used for turbulent oscillating pipe flow. Finally, the performance of the k- ϵ model was evaluated to explore the applicability of quasi-steady turbulent models to unsteady oscillating flow analysis.
ISSN:0142-727X
1879-2278
DOI:10.1016/0142-727X(92)90004-S