Demonstration and Validation of a 3D CFD Simulation Tool Predicting Pump Performance and Cavitation for Industrial Applications

Ding, Hui; Visser, F.C.; Jiang, Yu; Furmanczyk, M.

doi:10.1115/fedsm2009-78256

Cited by 48 publications

(60 citation statements)

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“…The newly developed commercial CFD package is PumpLinx, the efficacy of which has been demonstrated through comparisons of simulation and experimental results [22]. This software imports 3D geometry from CAD data in the form of STL files and then uses a geometry conformal adaptive binary-tree mesh generation tool to create a 3D grid from CAD surfaces.…”

Section: Fluid Analysis and Discussionmentioning

confidence: 99%

Fluid analysis of cylindrical and screw type Roots vacuum pumps

Hsieh

Zhou

2015

Vacuum

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Section: Fluid Analysis and Discussionmentioning

confidence: 99%

Fluid analysis of cylindrical and screw type Roots vacuum pumps

Hsieh

Zhou

2015

Vacuum

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“…Therefore, the basic continuity and momentum equations can be given by equations (8) and (9), respectively. 39–41 where Ω(t) is the control volume, σ is the surface area of control volume, ρ is the fluid density, ν is the fluid velocity vector, νσ is the surface motion velocity vector, n is the normal vector of point on surface, p is the fluid pressure, and f is the body force. It is assumed that the seawater is Newtonian, and the shear stress tensor τ~ can be defined as where δij is the Kronecker delta function and ui(i=1,2,3) is a component of velocity ν.…”

Section: Characterization and Methodologymentioning

confidence: 99%

Effect analysis of silencing grooves on pressure and vibration characteristics of seawater axial piston pump

Yin

Nie

Hou

et al. 2016

Proceedings of the Institution of Mechanical Engineers, Part C:

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Seawater axial piston pump is a critical power component in seawater fluid power system. As the properties of high bulk modulus and low viscosity of seawater, the pressure and vibration characteristics of the seawater axial piston pump will be getting poorer than the traditional oil pump. In this study, the pressure, flow, and vibration characteristics for a seawater axial piston pump are investigated. The three-dimensional computational fluid dynamics simulations for the port plate with non-grooved, U-shaped, and triangle-based pyramid silencing groove designs have been conducted over a range of operating conditions, which consider the fluid compressibility effect and cavitation damage. Measurements of pressure ripple and pump vibration are carried out at various loading conditions to verify the results of simulation. The experiment turned out that the well-designed port plate can mitigate both pressure ripples as well as vibrations of the pump. This research will lay the foundation for the further development of a low fluid noise seawater axial piston pump.

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“…Ding et al created a novel CFD methodology by combining CFD with advanced numerical algorithms and physical models. He also proved that the new CFD tool can improve the accuracy of meshing and remeshing [15]. Vogel et al brought about an integrated control model of hypersonic vehicle by using panel element method [16].…”

Section: Literature Reviewmentioning

confidence: 98%