会议论文详细信息
Francis-99 Workshop 1: steady operation of Francis turbines
Numerical Study of a High Head Francis Turbine with Measurements from the Francis-99 Project
Wallimann, H.^1 ; Neubauer, R.^1
Andritz Hydro AG, Hardstrasse 319, Zürich
8021, Switzerland^1
关键词: Hydraulic efficiency;    Norwegian University;    Numerical flow simulations;    Pressure fluctuation;    Rotor-stator interactions;    Science and Technology;    Simulated transients;    University of technologies;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/579/1/012003/pdf
DOI  :  10.1088/1742-6596/579/1/012003
来源: IOP
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【 摘 要 】

For the Francis-99 project initiated by the Norwegian University of Science and Technology (NTNU, Norway) and the Luleå University of Technology (LTU, Sweden) numerical flow simulation has been performed and the results compared to experimentally obtained data. The full machine including spiral casing, stay vanes, guide vanes, runner and draft tube was simulated transient for three operating points defined by the Francis-99 organisers. Two sets of results were created with differing time steps. Additionally, a reduced domain was simulated in a stationary manner to create a complete cut along constant prototype head and constant prototype discharge. The efficiency values and shape of the curves have been investigated and compared to the experimental data. Special attention has been given to rotor stator interaction (RSI). Signals from several probes and their counterpart in the simulation have been processed to evaluate the pressure fluctuations occurring due to the RSI. The direct comparison of the hydraulic efficiency obtained by the full machine simulation compared to the experimental data showed no improvement when using a 1° time step compared to a coarser 2° time step. At the BEP the 2° time step even showed a slightly better result with an absolute deviation 1.08% compared with 1.24% for the 1° time step. At the other two operating points the simulation results were practically identical but fell short of predicting the measured values. The RSI evaluation was done using the results of the 2° time step simulation, which proved to be an adequate setting to reproduce pressure signals with peaks at the correct frequencies. The simulation results showed the highest amplitudes in the vaneless space at the BEP operating point at a location different from the probe measurements available. This implies that not only the radial distance, but the shape of the vaneless space influences the RSI.

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