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Abstract

The present paper discusses the basic principles of hydraulic turbines, with special emphasis on the use of computational fluid dynamics (CFD) as a tool which is being increasingly applied to gain insight into the complex three-dimensional (3D) phenomena occurring in these types of fluid machinery. The basic fluid mechanics is briefly treated for the three main types of hydraulic turbine: Pelton, Francis and axial turbines. From the vast number of applications where CFD has proven to be an important help to the design engineer, two examples have been chosen for a detailed discussion. The first example gives a comparison of experimental data and 3D Euler and 3D Navier-Stokes results for the flow in a Francis runner. The second example highlights the state-of-the-art of predicting the performance of an entire Francis turbine by means of numerical simulation.

Keywords

hydraulic turbines flow prediction stage simulation hill chart Navier-Stokes and Euler computations

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References

Francis

J. B.

Lowell Hydraulic Experiments, 5th edition, 1909 (Van Nostrand, Princeton, New Jersey).

Göde

Rhyming

L 3-D computation of the flow in a Francis runner. Sulzer Tech. Rev., 1987, (4).

Keck

Goede

Pestalozzi

Experience with 3D Euler flow analysis as a practical design tool. In Proceedings of IAHR Symposium, Belgrade, September 1990.

Sallaberger

M. J.

Quasi-three-dimensional and three-dimensional flow calculation in a Francis turbine. IGTI paper 96-GT-38, Birmingham, 1996.

Goede

Sebestyen

Schachenmann

Navier-Stokes flow analysis for a pump impeller. In Proceedings of 16th IAHR Symposium, Sao Paulo, Brazil, 14-19 September 1992.

Drtina

Göde

Schachenmann

Three-dimensional turbulent flow simulation for two different hydraulic turbine draft tubes. In Proceedings of 1st European Conference on Computational Fluid Dynamics, Brussels, Belgium, 7-11 September 1992.

Drtina

Krause

Numerical prediction of abrasion for hydraulic turbine guide vanes. In Proceedings of IMACS-COST Conference on Computational Fluid Dynamics, Lausanne, 1995.

Casey

M. V.

Keck

Hydraulic turbines. Handbook of Fluid Dynamics and Fluid Machinery (Eds Schetz

J. A.

Fuhs

A. E.

), 1996 (John Wiley).

Janetzky

Göde

Ruprecht

Keck

Schärer

Ch.

Numerical simulation of the flow in a Pelton bucket. Submitted to XIX IAHR Symposium, Singapore, 1998.

10.

Bachmann

Schärer

Ch.

Staubli

Vullioud

Experimental flow studies in a 1-jet model Pelton turbine. In Proceedings of IAHR Symposium, Belgrade, 1990.

11.

Drela

Two-dimensional transsonic aerodynamic design and analysis using the Euler equation. GTI Report 187, 1986.

12.

TASCflow User Manual, Theory Documentation—Version 2.5, 1995 (Advanced Scientific Computing Limited, Waterloo, Canada).

13.

Casey

M. V.

Borth

Drtina

Hirt

Lang

Metzen

Wiss

The application of computational modeling to the simulation of environmental, medical and engineering flows. 18th Workshop Proceedings. Speedup J., 1996.

14.

Wehrli

Borth

Drtina

Lang

Industrial application of computational fluid dynamics for mass transfer processes. 19th Workshop Proceedings. Speedup J., 1997.

15.

Raw

M. J.

A new control-volume-based finite-element procedure for the numerical solution of the fluid flow and scalar transport equations. PhD thesis, University of Waterloo, 1985.

16.

Galpin

P. F.

Broberg

R. B.

Hutchinson

B. R.

Three-dimensional Navier-Stokes predictions of steady state rotor/stator interaction with pitch change. In Proceedings of 3rd Annual Conference of the CFD Society of Canada, Banff, Alberta, Canada, 25-27 June 1995.

17.

Denton

J. D.

The calculation of three-dimensional viscous flow through multistage turbomachines. Trans. ASME, J. Turbomachinery, 1992, 114, 18–26.

18.

Sick

Casey

M. V.

Galpin

Validation of a stage calculation in a Francis turbine. In Proceedings of 18th IAHR Symposium, 1996.

19.

Drtina

Sebestyen

Numerical prediction of hydraulic losses in the spiral casing of a Francis turbine. In Proceedings of XVIII IAHR Symposium, 1996.

Hydraulic turbines—basic principles and state-of-the-art computational fluid dynamics applications

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