论文信息 - Parallel CFD simulations of an original and redesigned hydraulic turbine draft tube

Parallel CFD simulations of an original and redesigned hydraulic turbine draft tube

The design of hydraulic turbine draft tubes has traditionally been based on simplified analytic methods, model and full-scale experiments. In the recent years the use of numerical methods such as computational fluid dynamics (CFD) has increased in the design process, due to the rapid escalation in computer performance. Today with parallel computer architectures, new aspects of flow can be considered. However, several problems have still to be solved before CFD can routinely be applied in product development. This paper aims to investigate the parallel performance of commercial CFD software on homogeneous computer networks, as common solutions encountered in the industry today. In addition, the efficiency improvements obtained in earlier experiments by modifying the shape of the draft tube will be considered, to deduce if the improvements can be captured with aid of CFD. Results from both the steady and the unsteady CFD simulations show that almost full scalability is obtained with the commercial CFD software CFX-5.7.1. Furthermore, no noticeable improvement in the pressure recovery factor or the flow field is noticed in the CFD simulations as compared to experiments. The discrepancy may be to the applied inlet boundary conditions and/or the turbulence model.

B. D. Marjavaara | T. S. Lundström | J. G. I. Hellström | J. Hellström | T. Lundström

[1] Michel Cervantes,et al. Effects of boundary conditions and unsteadiness on draft tube flow , 2003 .

[2] Håkan Gustavsson,et al. Turbine-99 III : Proceedings of the third IAHR/ERCOFTAC workshop on draft tube flow , 2005 .

[3] V. K. Naik. Scalability issues for a class of CFD applications , 1992, Proceedings Scalable High Performance Computing Conference SHPCC-92..

[4] B. E. Launder. Statistical Theory and Modelling for Turbulent Flows P.A. Durbin, B.A. Petterson Reif John Wiley and Sons, Baffins Lane, Chichester, West Sussex PO19 1UD, UK. 2001. 285pp. Illustrated. £29.95. ISBN 0-471-49744-4 , 2001 .

[5] Sebastiano Mauri,et al. Numerical Simulation and Flow Analysis of an Elbow Diffuser , 2002 .

[6] Håkan Nilsson. Numerical Investigations of Turbulent Flow in Water Turbines , 2002 .

[7] François Avellan,et al. Flow Investigation in a Francis Draft Tube : the Flindt Project , 2000 .

[8] N. Dahlbäck,et al. Redesign of Sharp Heel Draft Tube — Results from Tests in Model and Prototype , 1996 .

[9] Eisinger. AUTOMATIC SHAPE OPTIMIZATION OF HYDRO TURBINE COMPONENTS BASED ON , 2001 .

[10] T. Fredrik Engström. Simulations and experiments of turbulent diffuser flow with hydropower applications , 2003 .

[11] Daniel Marjavaara. Parameterisation and flow design optimisation of hydraulic turbine draft tubes , 2004 .