This paper studies the flow characteristics of the pump turbine of a pump under operating conditions during the outlet pressure variation process, aiming to improve its operational stability in pumping and compressing air energy storage systems. Through numerical simulations of the flow process, the pressure distribution and pressure pulsation characteristics in key areas such as the volute, double-row impeller, runner, and tailpipe are analyzed in depth. The study reveals that during the outlet pressure variation process under operating conditions, the pressure distribution is directly influenced by the outlet pressure variation, while pressure pulsation is mainly affected by the dynamic and static interference within the unit, with the pressure pulsation amplitude influenced by the rate of pressure variation. The results indicate that during the outlet pressure variation process, it is important to prevent the outlet pressure from staying in unstable working ranges to reduce the intensity of pressure pulsation. A smoother rate of pressure variation should be adopted before stopping the outlet pressure variation to reduce the “pressure variation inertia” and enhance the overall operational stability of the water turbine unit.
Key words: pump turbine; outlet pressure variation; pressure pulsation; numerical simulation
DOI: 10.25165/j.ijabe.20251802.9266

Citation: Li Z G, Xu L X, Li W X, Cheng C S, Song X T, Jiao Y X, et al. Pressure pulsation during the outlet pressure
variation process of the pump turbine under operating conditions. Int J Agric & Biol Eng, 2025; 18(2): 155–164.

pump turbine; outlet pressure variation; pressure pulsation; numerical simulation

Xu L C, Liu D M, Li Z, Zhao X Y, Liu X B. Experimental and numerical simulation research on flow characteristics of model pump-turbine in four-quadrant operating quadrants. Journal of Energy Storage, 2022; 54: 105083.

Liu D M, Li Z, Xu L C, Li J L, Yang Y X, Wang X L, et al. Vortex motion in vaneless space and runner passage of pump-turbine in s-shaped region. Physics of Fluids, 2024; 36(2): 025115.

Xu L C, Kan K, Zheng Y, Liu D M, Binama M, Xu Z, et al. Rotating stall mechanism of pump-turbine in hump region: An insight into vortex evolution. Energy, 2024; 292: 130579.

Li Z G, Xu L X, Wang D, Li D Y, Li W X. Simulation analysis of energy characteristics of flow field in the transition process of pump condition outage of pump-turbine. Renewable Energy, 2023; 219: 119480.

Li Z G, Li W X, Wang Q F, Xiang R, Cheng J, Han W, et al. Effects of medium fluid cavitation on fluctuation characteristics of magnetic fluid seal interface in agricultural centrifugal pump. Int J Agric & Biol Eng, 2021; 14(6): 85–92.

Li W, Li Z, Han W, et al. Measured viscosity characteristics of Fe3O4 ferrofluid in magnetic and thermal fields. Physics of Fluids, 2023; 35(1): 012002.

Chen F, Zhang J, Li Z G, Yan S N, Li W X, Yan Z Q, et al. Effect of the surface coating of carbonyl iron particles on the dispersion stability of magnetorheological fluid. Scientific Reports, 2024; 14(1): 11358.

Li W X, Li Z G, Qin Z, Yan S N, Wang Z Y, Peng S Y. Influence of the solution pH on the design of a hydro-mechanical magneto-hydraulic sealing device. Engineering Failure Analysis, 2022; 135: 106091.

Walseth E C, Nielsen T K, Svingen B. Measuring the dynamic characteristics of a low specific speed pump-turbine model. Energies, 2016; 9(3): 1–12.

Li X Y, Cao J W, Zhuang J L, Wu T M, Zheng H Y, Wang Y F, et al. Effect of operating head on dynamic behavior of a pump-turbine runner in turbine mode. Energies, 2022; 15(11): 4004.

Li Q F, Liu M M, Zhang J X, Liu Q, Zhang Z. Analysis of flow characteristics in guide vane region of pump turbine under braking conditions. Journal of Drainage and irrigation Machinery Engineering, 2017; 35(6): 495–501. DOI: 10. 3969 /j. issn. 674-8530. 16. 0243.

Kim S J, Suh J W, Yang H M, Park J, Kim J H. Internal flow phenomena of a Pump-Turbine model in turbine mode with different Thoma numbers. Renewable Energy, 2022; 184: 510–525.

Yin X L, Huang X X, Zhang S Z, Bi H L, Wang Z W. Numerical investigation of flow and structural characteristics of a large high-head prototype pump-turbine during turbine start-up. Energies, 2023; 16(9): 3743.

Zhang F F, Zhu D, Xiao R F, Liu W C, Tao R. Numerical investigation on the transient gas-liquid flow in the rapid switching process of pump turbine. Energy Science & Engineering, 2023; 11(8): 2710–2724.

Pan S Y, Wang J, Zhao X, Ren C J, Xin Y J, Wang Z L. New design and transient flow analysis of a claw vacuum pump with novel gear-claw rotors. Vacuum, 2023; 216: 112470.

Lu C S, Ding Y D, Wang H, Cheng M, Zhu X, Liao Q. Experimental study of the dynamics and mass transfer behavior of carbon dioxide bubble at different constraint limits. Chemical Engineering Science, 2024; 299: 120412.

Ren Z P, Li D Y, Wang H J, Liu J T, Li Y. Computational model for predicting the dynamic dissolution and evolution behaviors of gases in liquids. Physics of Fluids, 2022; 34(10): 103310

Ren Z, Li D, Hao H, et al. Gas-liquid transport behaviors and mass transfer mechanism during oxygen dissolution and evolution processes in a micropump. Journal of Fluids Engineering, 2023; 145(7): 071401.

Pan S Y, Wang J, Zhao X H, Li H X, Wang Z L, Geng M F, et al. Theoretical model and simulation of a twin-Screw multiphase pump with novel smooth screw rotors for gas-oil mixed transportation. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2023; 237(6): 1251–1263.

Li W X, Li Z, Han D Y S. Time-mean equation and multi-field coupling numerical method for low-Reynolds-number turbulent flow in ferrofluid. Physics of Fluids, 2023; 35(12): 125145.

Liang A, Li H C, Zhang W W, Yao Z F, Zhu B S, Wang F J. Study on pressure fluctuation and rotating stall characteristics in the vaneless space of a pump-turbine in pump mode. Journal of Energy Storage, 2024; 94: 1–19.

Hu L W, Liang A, Li H C, Zhang W W, Zhu B S. Impact of rotor-stator axial spacing on the gas-liquid-solid flow characteristics of a multiphase rotodynamic pump based on the Euler multi-fluid model. Physics of Fluids, 2024; 36: 1–17.

Li H C, Yang J H, Zhang W W, Hu L W, Liang A, Yao Z F. Energy performance and unsteady gas-liquid flow characteristics of a multiphase rotodynamic pump: An experiment. Applied Energy, 2024; 375: 124112.

Zhou W J, Ma J, Ma Z L, Yu W B, Su H H, Gao B. Fluid-structure interaction on the rotor-dynamic characteristics of a low-specific-speed centrifugal pump considering multi-scale fluid excitation effects. Physics of Fluids, 2024; 36(11): 117157.

Li W X, Li Z G, Han W, Li D C, Yan S N, Zhou J P. Study of the flow characteristics of pumped media in the confined morphology of a ferrofluid pump with annular microscale constraints. Journal of Fluids Engineering, 2025; 147(2): 021201.

Li W X, Li Z G, Han W, Wang Y, Zhao J L, Zhou J P. Morphologic transformation of ferrofluid during micropump driving under field control. Annals of the New York Academy of Sciences, 2025; 1543(1): 194–203.

Zhou W, Jin X, Ding L, Ma J, Su H H, Zhao A. Research on vibration signal decomposition of cracked rotor-bearing system with double-disk based on CEEMDAN-CWT. Applied Acoustics, 2025; 227: 110254.

Jin X, Zhou W J, Ma J, Su H H, Liu S, Gao B. Analysis on the vibration signals of a novel double-disc crack rotor-bearing system with single defect in inner race. Journal of Sound and Vibration, 2025; 595: 118729.

Zhou W J, Qiu N, Wang L Q, Gao B, Liu D. Dynamic analysis of a planar multi-stage centrifugal pump rotor system based on a novel coupled model. Journal of Sound and Vibration, 2018; 434: 237–260.