2012
DOI: 10.1115/1.4007897
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Dependency on Runner Geometry for Reversible-Pump Turbine Characteristics in Turbine Mode of Operation

Abstract: Characteristics of a reversible-pump turbine have been measured with five different leading edge profiles in turbine mode. These profiles varied the inlet blade angle and the radius of curvature. Further geometry parameters have been investigated through numerical simulations. The pump turbine tested has much steeper flow-speed characteristics than a comparable Francis turbine. The most obvious geometry difference is the inlet part of the runner blades, where the blade angle for the pump turbine is much smalle… Show more

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Cited by 63 publications
(32 citation statements)
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“…A comprehensive parametric research on the impact of runner leading edge of a pump-turbine on the performance curve was accomplished by. [1] in Identifying the complex flow patterns at the runner inlet on the S-shaped characteristics. [43] projected a start-up plan for hydraulic turbines prone to S-shaped characteristic, based on a gain scheduling technique from finite horizon predictive control.…”
Section: Pump-turbine Geometric Parameters Examined With Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…A comprehensive parametric research on the impact of runner leading edge of a pump-turbine on the performance curve was accomplished by. [1] in Identifying the complex flow patterns at the runner inlet on the S-shaped characteristics. [43] projected a start-up plan for hydraulic turbines prone to S-shaped characteristic, based on a gain scheduling technique from finite horizon predictive control.…”
Section: Pump-turbine Geometric Parameters Examined With Resultsmentioning
confidence: 99%
“…Nevertheless, pump turbine design comes from the outcome of a cooperation amongst the conflicting targets such as performance of pump and turbine, regulatory capacity, efficiency and cavitation behavior. The design criteria, which are more focused on the behavior of the pumping function, such as the increase in the depth of the flow field at the depth of the flow field can result in the operation of the unstable region (called the S-shaped region) which doesn't have impact on Francis turbines functioning at the same conditions [1]. In view of the strong fluctuation of the torque caused by the occurrence of instability in the region, the RPT can be affected by a sudden change in the function (from turbine to pump and vice versa), along with substantial fluctuations of the head and flow rate through conceivable self-excited vibrations [2] otherwise water hammers emphasizing not the mechanical equipment alone but the entire power plant [3].…”
Section: Introductionmentioning
confidence: 99%
“…The Reynolds stresses are modeled according to the turbulent viscosity hypothesis as 2 ( ) 3 [10,22,23,25]. In this study, RNG k ε − turbulence model was used for the closure of the RANS equations with the standard wall function method since it is economical and robust for predicting steady calculation with acceptable accuracy [25].…”
Section: Cfd Analysesmentioning
confidence: 99%
“…The profile of the runner can be modified by changing the design parameters on the basis of internal flow analysis [10,11]. However, this CFD flow analysis cannot directly propose a blade configuration with favorable flow pattern.…”
Section: Introductionmentioning
confidence: 99%
“…When the pump-turbine is running stably in turbine mode, ignoring the flow loss at the runner and assuming that the flow distribution of the runner inlet or outlet is uniform, the flow through it can be calculated as follows [30][31][32]:…”
Section: Mathematical Modelmentioning
confidence: 99%