Depth-integrated flow modelling taking into account bottom curvature

[en] Successfully modelling flows over a spillway and on strongly vertically curved bottoms is a challenge for any depth-integrated model. This type of computation requires the use of axes properly inclined along the mean flow direction in the vertical plane and a modelling of curvature effects. The proposed generalized model per-forms such computations by means of suitable curvilinear coordinates in the vertical plane, leading to a fully integrated approach. This means that the flows in the upstream reservoir, on the spillway, in the stilling basin and in the downstream river reach are all handled in a single simulation. The velocity profile is generalized in comparison with the uniform one usually assumed in the classical shallow water equations. The pressure dis-tribution is modified as a function of the bottom curvature and is thus not purely hydrostatic. Representative test cases, as well as the application of the extended model to the design of a large hydraulic structure in Bel-gium, lead to satisfactory validation results.

Research Center/Unit :

Aquapôle - ULiège

Disciplines :

Civil engineering

Author, co-author :

Dewals, Benjamin ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Hydrodynamique appl. et constructions hydrauliques (HACH)

Erpicum, Sébastien ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Hydraulique génér., const. hydraul. et méc. des fluides

Archambeau, Pierre ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Hydrodynamique appl. et constructions hydrauliques (HACH)

Detrembleur, Sylvain ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Hydrodynamique appl. et constructions hydrauliques (HACH)

Pirotton, Michel ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Hydrodynamique appl. et constructions hydrauliques (HACH)

Language :

English

Title :

Depth-integrated flow modelling taking into account bottom curvature

Publication date :

2006

Journal title :

Journal of Hydraulic Research

ISSN :

0022-1686

eISSN :

1814-2079

Publisher :

International Association for Hydraulic Research, Delft, Netherlands

Volume :

Issue :

Pages :

787-795

Peer reviewed :

Peer Reviewed verified by ORBi

Funders :

F.R.S.-FNRS - Fonds de la Recherche Scientifique

Available on ORBi :

since 24 February 2010

Statistics

Number of views

91 (17 by ULiège)

Number of downloads

528 (11 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

OpenAlex citations

Bibliography

André, S., Dewals, B.J., Pirotton M. and Schleiss, A. (2003). "Quasi 2D-numerical Model of Aerated Flow Over Stepped Chutes". In: Prinos, P. (ed.), Proc. 30th IAHR Congress. IAHR: Thessaloniki, Greece, pp. 671-678.
Archambeau, P., Erpicum, S, Mouzelard T. and Pirotton, M. (2001). "Impact Studies and Water Management with WOLFHYDRO: A New Physically Based Hydrological Solver". In: Proc. Int. Symposium on Environmental Hydraulics. Arizona State University, USA.
Archambeau, P., Dewals, B, Detrembleur S, Erpicum, S. and Pirotton, M. (2003). "A Set of Efficient Numerical Tools for Floodplain Modeling". In: Uijttewaal, W.S.J. (ed.), Shallow Flows, IfH & TU Delft, Delft, pp. 141-158.
Berger, R.C. and Carey, G.F. (1998a). "Free-surface Flow Over Curved Surfaces - Part I: Perturbation Analysis". Int. J. Numer. Meth. Fluids 28(2), 191-200.
Berger, R.C. and Carey, G.F. (1998b). "Free-Surface Flow Over Curved Surfaces - Part II: Computational Model". Int. J. Numer. Meth. Fluids 28(2), 201-213.
Bollaert, E., Erpicum S., Pirotton, M. and Schleiss, A. (2002). "Genetic Algorithm Optimization of Transient Two-Phase Water Pressures Inside Closed-End Rock Joints". In: Bollaert, E. (ed.), Rock Scour due to falling High-Velocity Jets - Proc. Int. Workshop, Lausanne, Switzerland, 25-28 September 2002, Balkema.
Bürgisser, M.F. and Rutschmann, P. (1999). "Numerical Solution of Viscous 2DV Free Surface Flows: Flow Over Spillway Crests". In: 28th IAHR Congress, Graz, Austria.
Dewals, B., Archambeau, P., Erpicum, S., Mouzelard, T. and Pirotton, M. (2002). "Coupled Computations of Highly Erosive Flows with WOLF Software". In: Proc. 5th Int. Conf. on Hydro-Science & Engineering, Warsaw.
Dressler, R.F. (1978). "New Nonlinear Shallow Flow Equations with Curvature". J. Hydraul. Res. 16(3), 205-222.
Dressler, R.F. and Yevjevich, V. (1984). "Hydraulic-Resistance Terms Modified for the Dressler Curved-Flow Equations". J. Hydraul. Res. 22(3), 145-156.
Ilhan, M.H. (1994). "Computation of Flow Over Vertically Curved Channels". Masters Thesis, Gradual School of Natural and Applied Sciences, Middle East Technical University, Ankara.
Khan, A.A. and Steffler, P.M. (1996a). "Vertically Averaged and Moment Equations Model for Flow Over Curved Beds". J. Hydraul. Eng.-ASCE 122(1),3-9.
Khan, A.A. and Steffler, P.M. (1996). "Modelling Overfalls Using Vertically Averaged and Moment Equations". J. Hydraul. Eng.-ASCE 122(7), 397-402.
Mouzelard, T. (2002). "Contribution à la modélisation desécoulements quasi tridimensionnels instationnaires à surface libre". Doctoral Thesis, Université de Liège, 253 p.
Pirotton, M. (1994). "Modélisation des discontinuités en écoulement instationnaire à surface libre. Du ruissellement hydrologique en fine lame à la propagation d'ondes consécutives aux ruptures de barrages". Doctoral Thesis, Université de Liège.
Sinniger, R. (1989). "Ecoulements Stationnaires". Traité de Génie Civil de l'EPFL, Constructions Hydrauliques, 439 p.
Sivakumaran, N.S., Hosking R.J. and Tingsanchali, T. (1981). "Steady Shallow Flow Over a Spillway". J. Fluid Mech. 111, 411-420.
Sivakumaran, N.S., Tingsanchali, T and Hosking, R.J. (1983). "Steady Shallow Flow Over Curved Beds". J. Fluid Mech. 128, 469-487.
US Bureau of Reclamation (1987). Design of Small Dams, 3rd edn. Water Resources Technical Publication, USA.
Whitham, G.B. (1974). Linear and Nonlinear Waves. John Wiley & Sons, New York, 636 p.
World Commission on Dams (2000). Dams and Development, A New Framework for Decision-Making. Earthscan, London.