EDP Sciences logo
Submit your paper
Search
Menu
All issues Volume 9 / No 1 (Janvier-Février 2008) Mécanique & Industries, 9 1 (2008) 43-49 References
Open Access
Issue
Mécanique & Industries
Volume 9, Number 1, Janvier-Février 2008
Page(s) 43 - 49
DOI https://doi.org/10.1051/meca:2008006
Published online 17 May 2008
  1. A.S. Tijsseling, Fluid-structure interaction in liquid–filled pipe systems: A Review, J. Fluids Struct. 10 (1996) 109–146 [CrossRef] [Google Scholar]
  2. D.C. Wiggert, Fluid transients in flexible piping systems: a perspective on recent developments, Proceedings of the 18th Symposium on Hydraulic Machinery and Cavitation, Valence, Espagne, 1996, pp. 58–67 [Google Scholar]
  3. A. Djemili, Influence de l'ancrage de la conduite – paroi élastique ou viscoélastique – sur les écoulements en régime transitoire, Premier Séminaire de Mécanique, SMSM, Tome 2, Rabat, Maroc, avril 1993, pp. 275–283 [Google Scholar]
  4. W. Zielke, Frequency-dependent friction in transient pipe flow, J. Basic Eng. ASME 90 (1968) 109–115 [Google Scholar]
  5. E.L. Holmboe, W.T. Rouleau, The Effects of Viscous Shear on Transients in Liquid Lines, J. Basic Eng. ASME 80 (1967) 174–180 [Google Scholar]
  6. A. Bergant, A.R. Simpson, J. Vitkovsky, Developments in unsteady pipe flow friction modeling, J. Hydraulic Res. 39 (2001) 249–256 [Google Scholar]
  7. R. A. Prado, A.E. Larreteguy, A transient shear stress model for the analysis of laminar water-hammer problems, J. Hydraulic Res. 40 (2002) 45–53 [CrossRef] [Google Scholar]
  8. M. Gally, E. Rieutord, Influence relative de la viscoélasticité du fluide et de celle de la paroi sur l'évolution des perturbations en conduites, Congrès Français de Mécanique, Marseille, France, septembre 1981 [Google Scholar]
  9. J.G. Oldroyd, On the formulation of rheological equations of state, Proceedings of the Royal Society 200 (1950) 523–541 [Google Scholar]
  10. K. Walters, Non-Newtonian effects in some elastico-viscous liquids whose behavior at small rates of shear is characterized by a general linear equation of state, The Quarterly J. Mech. Appl. Math. 15 (1962) 63–76 [Google Scholar]
  11. J.M. Dorvaux, Étude d'une méthode de calcul des écoulements transitoires de fluides viscoélastiques en conduites viscoélastiques, Thèse de Doctorat de 3e cycle, INSA de Lyon, France, 1983 [Google Scholar]
  12. E.B. Wylie, V.L. Streeter, Fluid Transients, FEB Press, Michigan, USA, 1990 [Google Scholar]
  13. A. Djemili, K. Chaoui, Contribution à l'étude des écoulements instationnaires de fluides non-newtoniens dans des conduites en matériau élastique, JEM'03, Annaba, Algérie, 16–17 décembre 2003 [Google Scholar]
  14. A.K. Trikha, An Efficient Method for Simulating Frequency-Dependent Friction in Transient Liquid Flow, J. Fluids Eng. ASME 97 (1975) 97–105 [CrossRef] [Google Scholar]
  15. K. Suzuki, T. Taketomi, S. Sato, Improving Zielke's method of simulating frequency-dependent friction in laminar liquid pipe flow, J. Fluids Eng. ASME 113 (1991) 569–573 [CrossRef] [Google Scholar]
  16. G.A. Schohl, Improved approximate method for simulating frequency-dependent friction in transient laminar flow, J. Fluids Eng. ASME 115 (1993) 420–424 [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.