The pressure fluctuations and runner loads on a pump-turbine runner during runaway process are very violent and the corresponding flow evolution is complicated. To study these phenomena and their correlations in depth, the runaway processes of a model pump-turbine at four guide vane openings (GVOs) were simulated by three-dimensional computational fluid dynamics (3D-CFD). The results show that the flow structures around runner inlet have regular development and transition patterns—the reverse flow occurs when the trajectory moves to the turbine-brake region and the main reverse velocity shifts locations among the hub side, the shroud side and the midspan as the trajectory comes forward and backward in the S-shape region. The locally distributed reverse flow vortex structures (RFVS) enhance the local rotor–stator interaction (RSI) and make the pressure fluctuations in vaneless space at the corresponding section stronger than at the rest sections along the spanwise direction. The transitions of RFVS, turning from the hub side to midspan, facilitate the inception and development of rotating stall, which propagates at approximately 45–72% of the runner rotation frequency. The evolving rotating stall induces asymmetrical pressure distribution on the runner blade, resulting in intensive fluctuations of runner torque and radial force. During the runaway process, the changing characteristics of the reactive axial force are dominated by the change rate of flow discharge, and the amplitude of low frequency component of axial force is in proportion to the amplitude of discharge change rate.
Issue Section:
Flows in Complex Systems
References
1.
Egusquiza
, E.
, Valero
, C.
, Presas
, A.
, Huang
, X.
, Guardo
, A.
, and Seidel
, U.
, 2016
, “Analysis of the Dynamic Response of Pump-Turbine Impellers. Influence of the Rotor
,” Mech. Syst. Signal Process.
, 68–69
, pp. 330
–341
.2.
Barbour
, E.
, Wilson
, I. A. G.
, Radcliffe
, J.
, Ding
, Y.
, and Li
, Y.
, 2016
, “A Review of Pumped Hydro Energy Storage Development in Significant International Electricity Markets
,” Renewable Sustainable Energy Rev.
, 61
, pp. 421
–432
.3.
Kiran
, B. D. H.
, and Kumari
, M. S.
, 2016
, “Demand Response and Pumped Hydro Storage Scheduling for Balancing Wind Power Uncertainties: A Probabilistic Unit Commitment Approach
,” Int. J. Electr. Power Energy Syst.
, 81
, pp. 114
–122
.4.
Deyou
, L.
, Hongjie
, W.
, Gaoming
, X.
, Ruzhi
, G.
, Xianzhu
, W.
, and Zhansheng
, L.
, 2015
, “Unsteady Simulation and Analysis for Hump Characteristics of a Pump Turbine Model
,” Renewable Energy
, 77
, pp. 32
–42
.5.
Zeng
, W.
, Yang
, J.
, and Yang
, W.
, 2016
, “Instability Analysis of Pumped-Storage Stations Under No-Load Conditions Using a Parameter-Varying Model
,” Renewable Energy
, 90
, pp. 420
–429
.6.
Trivedi
, C.
, Cervantes
, M. J.
, Gandhi
, B. K.
, and Dahlhaug
, G. O.
, 2014
, “Experimental Investigations of Transient Pressure Variations in a High Head Model Francis Turbine During Start-Up and Shutdown
,” J. Hydrodyn., Ser. B
, 26
(2
), pp. 277
–290
.7.
Trivedi
, C.
, Gandhi
, B.
, and Michel
, C. J.
, 2013
, “Effect of Transients on Francis Turbine Runner Life: A Review
,” J. Hydraul. Res.
, 51
(2
), pp. 121
–132
.8.
Nicolet
, C.
, Alligne
, S.
, Kawkabani
, B.
, Simond
, J.-J.
, and Avellan
, F.
, 2009
, “Unstable Operation of Francis Pump-Turbine at Runaway: Rigid and Elastic Water Column Oscillation Modes
,” Int. J. Fluid Mach. Syst.
, 2
(4
), pp. 324
–333
.9.
Pejovic
, S.
, Zhang
, Q. F.
, Karney
, B.
, and Gajic
, A.
, 2011
, “Analysis of Pump-Turbine ‘S’ Instability and Reverse Water Hammer Incidents in Hydropower Systems
,” 4th International Meeting on Cavitation and Dynamic Problems in Hydraulic Machinery Systems
, Belgrade, Serbia, Oct. 26–28, pp. 1–16.10.
Zuo
, Z.
, Fan
, H.
, Liu
, S.
, and Wu
, Y.
, 2016
, “S-Shaped Characteristics on the Performance Curves of Pump-Turbines in Turbine Mode—A Review
,” Renewable Sustainable Energy Rev.
, 60
, pp. 836
–851
.11.
Nicolet
, C.
, Alligné
, S.
, Kawkabani
, B.
, Koutnik
, J.
, Simond
, J. J.
, and Avellan
, F.
, 2009
, “Stability Study of Francis Pump-Turbine at Runaway
,” 3rd IAHR International Meeting of the Workgroup on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems
, Brno, Czech, Oct. 14–16, pp. 371–384.12.
Seidel
, U.
, Mende
, C.
, Hübner
, B.
, Weber
, W.
, and Otto
, A.
, 2014
, “Dynamic Loads in Francis Runners and Their Impact on Fatigue Life
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032054
.13.
Liu
, X.
, Luo
, Y.
, and Wang
, Z.
, 2016
, “A Review on Fatigue Damage Mechanism in Hydro Turbines
,” Renewable Sustainable Energy Rev.
, 54
, pp. 1
–14
.14.
Nennemann
, B.
, Morissette
, J. F.
, Chamberland-Lauzon
, J.
, Monette, C., Braun, O., Melot, M., Coutu, A., Nicolle, J., and Giroux
, A. M.
, 2014
, “Challenges in Dynamic Pressure and Stress Predictions at No-Load Operation in Hydraulic Turbines
,” IOP Conf. Ser. Earth Environ. Sci.,
22
(3
), p. 032055
.15.
Xiao
, Y.-X.
, and Xiao
, R. F.
, 2014
, “Transient Simulation of a Pump-Turbine With Misaligned Guide Vanes During Turbine Model Start-Up
,” Acta Mech. Sin.
, 30
(5
), pp. 646
–655
.16.
Staubli
, T.
, Widmer
, C.
, Tresch
, T.
, and Sallaberger
, M.
, 2010
, “Starting Pump-Turbines With Unstable Characteristics
,” Hydro 2010
, Lisbon, Portugal, Nov. 2–5.17.
Xia
, L. S.
, Cheng
, Y. G.
, Zhang
, X. X.
, and Yang
, J. D.
, 2014
, “Numerical Analysis of Rotating Stall Instabilities of a Pump-Turbine in Pump Mode
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032020
.18.
Gentner
, C.
, Sallaberger
, M.
, Widmer
, C.
, and Guggenberger
, M.
, 2014
, “Comprehensive Experimental and Numerical Analysis of Instability Phenomena in Pump Turbines
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032046
.19.
Guggenberger
, M.
, Senn
, F.
, Schiffer
, J.
, Jaberg
, H.
, Gentner
, C.
, Sallaberger
, M.
, and Widmer
, C.
, 2014
, “Experimental Investigation of the Turbine Instability of a Pump-Turbine During Synchronization
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032015
.20.
Guggenberger
, M.
, Senn
, F.
, Schiffer
, J.
, Jaberg
, H.
, Sallaberger
, M.
, and Widmer
, C.
, 2015
, “Investigating the Dynamic Aspects of the Turbine Instability of a Pump-Turbine Model
,” 6th IAHR International Meeting of the Workgroup on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems
, Ljubljana, Slovenia, Sept. 9–11.21.
Hasmatuchi
, V.
, Farhat
, M.
, Roth
, S.
, Botero
, F.
, and Avellan
, F.
, 2011
, “Experimental Evidence of Rotating Stall in a Pump-Turbine at Off-Design Conditions in Generating Mode
,” ASME J. Fluids Eng.
, 133
(5
), p. 051104
.22.
Zuo
, Z.
, Liu
, S.
, Sun
, Y.
, and Wu
, Y.
, 2015
, “Pressure Fluctuations in the Vaneless Space of High-Head Pump-Turbines—A Review
,” Renewable Sustainable Energy Rev.
, 41
, pp. 965
–974
.23.
Yin
, J.
, Wang
, D.
, Walters
, D. K.
, and Wei
, X.
, 2014
, “Investigation of the Unstable Flow Phenomenon in a Pump Turbine
,” Sci. China Phys. Mech. Astron.
, 57
(6
), pp. 1119
–1127
.24.
Zhang
, X.
, Cheng
, Y.
, Xia
, L.
, Yang
, J.
, and Qian
, Z.
, 2016
, “Looping Dynamic Characteristics of a Pump-Turbine in the S-Shaped Region During Runaway
,” ASME J. Fluids Eng.
, 138
(9
), p. 091102
.25.
Widmer
, C.
, Staubli
, T.
, and Ledergerber
, N.
, 2011
, “Unstable Characteristics and Rotating Stall in Turbine Brake Operation of Pump-Turbines
,” ASME J. Fluids Eng.
, 133
(4
), p. 041101
.26.
Cavazzini
, G.
, Covi
, A.
, Pavesi
, G.
, and Ardizzon
, G.
, 2015
, “Analysis of the Unstable Behavior of a Pump-Turbine in Turbine Mode: Fluid-Dynamical and Spectral Characterization of the S-Shape Characteristic
,” ASME J. Fluids Eng.
, 138
(2
), p. 021105
.27.
Trivedi
, C.
, Cervantes
, M. J.
, and Gandhi
, B. K.
, 2016
, “Investigation of a High Head Francis Turbine at Runaway Operating Conditions
,” Energies
, 9
(3
), p. 149
.28.
Trivedi
, C.
, Gandhi
, B. K.
, Cervantes
, M. J.
, and Dahlhaug
, O. G.
, 2015
, “Experimental Investigations of a Model Francis Turbine During Shutdown at Synchronous Speed
,” Renewable Energy
, 83
, pp. 828
–836
.29.
Trivedi
, C.
, Cervantes
, M. J.
, Gandhi
, B. K.
, and Dahlhaug
, O. G.
, 2014
, “Transient Pressure Measurements on a High Head Model Francis Turbine During Emergency Shutdown, Total Load Rejection, and Runaway
,” ASME J. Fluids Eng.
, 136
(12
), p. 121107
.30.
Trivedi
, C.
, Cervantes
, M. J.
, Dahlhaug
, O. G.
, and Gandhi
, B. K.
, 2015
, “Experimental Investigation of a High Head Francis Turbine During Spin-No-Load Operation
,” ASME J. Fluids Eng.
, 137
(6
), p. 061106
.31.
Xia
, L. S.
, Cheng
, Y. G.
, You
, J. F.
, and Jiang
, Y. Q.
, 2016
, “CFD Analysis of the Runaway Stability of a Model Pump-Turbine
,” IOP Conf. Ser. Earth Environ. Sci.
, 49
(4
), p. 042004
.32.
Jacquet
, C.
, Fortes-Patella
, R.
, Balarac
, L.
, and Houdeline
, J.-B.
, 2016
, “CFD Investigation of Complex Phenomena in S-Shape Region of Reversible Pump-Turbine
,” IOP Conf. Ser. Earth Environ. Sci.
, 49
(4
), p. 042010
.33.
Lucius
, A.
, and Brenner
, G.
, 2011
, “Numerical Simulation and Evaluation of Velocity Fluctuations During Rotating Stall of a Centrifugal Pump
,” ASME J. Fluids Eng.
, 133
(8
), p. 081102
.34.
Menter
, F. R.
, and Egorov
, Y.
, 2010
, “The Scale-Adaptive Simulation Method for Unsteady Turbulent Flow Predictions—Part 1: Theory and Model Description
,” Flow Turbul. Combust.
, 85
(1
), pp. 113
–138
.35.
Xia
, L.
, Cheng
, Y.
, Cai
, F.
, and Zhang
, X.
, 2015
, “Numerical Analysis of Flow Characteristics of a Model Pump-Turbine in Four Operating Quadrants
,” J. Hydraul. Eng.
, 46
(7
), pp. 859
–868
(in Chinese).36.
Xia
, L.
, Cheng
, Y.
, You
, J.
, Zhang
, X.
, Yang
, J.
, and Qian
, Z.
, 2017
, “Mechanism of the S-Shaped Characteristics and the Runaway Instability of Pump-Turbines
,” ASME J. Fluids Eng.
, 139
(3
), p. 031101
.37.
Botero
, F.
, Hasmatuchi
, V.
, Roth
, S.
, and Farhat
, M.
, 2014
, “Non-Intrusive Detection of Rotating Stall in Pump-Turbines
,” Mech. Syst. Signal Process.
, 48
(1–2
), pp. 162
–173
.38.
Zeng
, W.
, Yang
, J.
, Hu
, J.
, and Yang
, J.
, 2016
, “Guide-Vane Closing Schemes for Pump-Turbines Based on Transient Characteristics in S-Shaped Region
,” ASME J. Fluids Eng.
, 138
(5
), p. 051302
.39.
Zhang
, Y.
, Zhang, Y., and Wu
, Y.
, 2016
, “A Review of Rotating Stall in Reversible Pump Turbine
,” Proc. Inst. Mech. Eng. Part C
, 231
(7), pp. 1181–1204.40.
Moisan, É,
Giacobbi
, D.-B.
, Gagnon
, M.
, and Léonard, F., 2014
, “Self-Excitation in Francis Runner During Load Rejection
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032025
.41.
Pejovic
, S.
, and Karney
, B.
, 2014
, “Guidelines for Transients Are in Need of Revision
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(4
), p. 042006
.42.
Nicolle
, J.
, Giroux
, A. M.
, and Morissette
, J. F.
, 2014
, “CFD Configurations for Hydraulic Turbine Startup
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032021
.43.
Côté
, P.
, Dumas
, G.
, Moisan
, É.
, and Boutet-Blais
, G.
, 2014
, “Numerical Investigation of the Flow Behavior Into a Francis Runner During Load Rejection
,” IOP Conf. Ser. Earth Environ. Sci.
, 22
(3
), p. 032023
.44.
Dai
, Y.
, Hai
, W.
, Zhang
, K.
, Zheng
, L.
, Kong
, L.
, and Zhu
, X.
, 2005
, “Research on Axial Hydraulic Thrust of Francis Pump-Turbine's Runner
,” J. Hydroelectric Eng.
, 24
(2
), pp. 105
–109
(in Chinese).45.
Gang
, W. U.
, Zhang
, K.
, Dai
, Y.
, and Sun
, J.
, 2004
, “Influences of the Leakage Rate of Low Specific Speed Francis Runner on Phenomenon of the Lifting Hydroelectric Generator Set
,” J. Hydroelectric Eng.
, 23
(4
), pp. 106
–111
(in Chinese).Copyright © 2017 by ASME
You do not currently have access to this content.
