LARHYSS JOURNAL 1112-3680 / 2521-9782

The fluctuation of free surface water in surge tanks is of great interest for its design. For this, various mathematical models exist for the analysis of mass oscillations in a surge shaft following valve adjustment. This paper describes a finite element technique using weighted residuals method for the solution of the governing differential equations. Three weighting functions are applied and the results are compared with those from classical methods. First, a relatively simple case of surge analysis with a sudden load rejection in the penstock is analyzed but neglecting tunnel friction. Then friction is included for test and comparison. The results indicate that the proposed numerical approach leads to an accurate simulation of the water surface motion. 

BERGERON, P. (1970). "Hydraulique Appliquée". Société française des électriciens, Ecole supérieure d'Electricité, Paris.

CANNOR, J. J., BREBBIA, C. A. (1976). "Finite Element Technique for Fluid Flow". Butterworth & Co Ltd.

ESCANDE, L. (1950). "Méthodes nouvelles pour le calcul des chambres d’équilibre". Dunod, Paris.

ESCANDE, L. (1971). "Hydraulique Générale". Tome 2. Institut National Polytechnique de Toulouse, Ecole Nationale Supérieure d’Electrotechnique d’Electronique, d’Informatique et d’Hydraulique.

EYDOUX, D. (1917). "Contribution à la technique de la houille blanche, Les mouvements de l’eau et les coups de bélier dans les cheminées d’équilibre". Annales de la Faculté des Sciences de Toulouse, 3e série, Tome 9, 147-285.

FEATHERSTONE, R. E. and NALLURI, C. (1995). "Civil Engineering Hydraulics". Blackwell science Ltd.

FRANCE, P.W. (1977). "A Comparison Between Experimental and Numerical Investigations of the Motion of the Water Surface in a Model Surge Tank". Advances in water resources, Vol. 1, N°1, 49-51.

FRANCE, P.W. (1980). "Surge tank water level variations following rapid valve opening ". Advances in water resources, Vol. 3, 41-43.

FRANCE, P.W. (1984) : "Mathematical models for surge analysis". Engineering Analysis, Vol. 1, N°2, 107-109.

HERVOUET, J. M. (2007). "Hydrodynamics of Free Surface Flow". John Wiley & Sons, Ltd.

JAEGER, C. (1954). "Hydraulique technique". Dunod, Paris.

JAEGER, C. (1977). "Fluid transients in hydro-electric engineering practice". Blackie, London.

McKEOGH, E., FRANCE, P.W. (1983). " Finite element solutions for mass oscillations in surge tanks". Advances in water resources, Vol. 6, 200-204.

REDDY, J. N. (1993). "An Introduction to The Finite Element Method". McGraw Hill, Inc.

SZYMKIEWICZ, R., MITOSEK, M. (2004). "Analysis of unsteady pipe flow using the modified finite element method". Communications in Numerical Methods in Engineering, Vol. 25, 183-199.

ZIENKIEWICZ, O.C., TAYLOR, R.L. (2000). "The Finite Element Method". Volume 1, The basis, Butterworth-Heinemann.

ZIENKIEWICZ, O.C., TAYLOR, R.L. (2000). "The Finite Element Method". Volume 3, Fluid mechanics, Butterworth-Heinemann.