Advances in Hydrodynamics of Water Pump Station System

© 2024 by the authors; CC BY-NC-ND license

pressure fluctuation; SAS; clocking effect; hydrofoil; wake; pumps as turbines (PAT); computational fluid dynamics; variable rotational nominal speed; OpenFOAM; right-angle elbow; water filling process; water–air two-phase flow; numerical simulation; physical model experiment; energy loss; pump turbine with splitter blades; entropy production; laser doppler velocimetry; helicity; axial-flow pump; rotor system; structural strength; fatigue life; pump as turbine; fluid-structure interaction; dual flapping foils; hydrodynamic performance; numerical simulation; test verification; pump turbine; field test; pressure fluctuation; acceleration; stability characteristics; rotor–stator interaction; Francis turbine; flow-induced noise; swirling flow; computational fluid dynamics; sound power level; high-undulation water pipeline; gas–liquid two-phase flow; random distribution of bubbles; flow pattern evolution; pressure pulsation; forebay; numerical simulation; rectification facilities; bottom sill; diversion pier; pumped storage unit; governing system; fractional-order PID; improved gravitational search algorithm; prototype Kaplan turbine; model Kaplan turbine; shroud clearance flow; cavitation; clearance leakage vortex; Francis turbine; pressure pulsation; draft tube design; hydrodynamic analysis; variational mode decomposition; pump; modal analysis; static stress; dynamic stress; numerical simulation; fluid-structure interaction; pump turbine; single pier; vortex rope; pressure fluctuation; numerical simulation; variable speed centrifugal pump; large flow; wide head variation; hydraulic design; variable speed operation range; operation path; pump station; centrifugal pump; internal flow characteristics; startup combinations; n/a; double-volute centrifugal pump; power-off transition process; internal flow field characteristics; external characteristic parameters