Numerical methodology for the CFD simulation of diaphragm volumetric pumps

Bahrton, S., “Double acting pump,” US Patent 6299415 B1, 2001. Wilden, J.K., “Air driven diaphragm pump,” US Patent 4247264 A, 1981. Gardner, R.K.; Kozumplik, N.J., “Double diaphragm pumps,” EP Patent 0304210 B1, 1992. Bahrton, S., “Reversing valve for a diaphragm pump,” US Patent 6419463 B1, 2002. González-Moratiel, A., “Double-membrane central-flow pump,” EP Patent 2573397 A1, 2013. ANSI/HI. 10.1-10.5, “Air operated pumps for nomenclature, definitions, application and operation,” Hydraulic Institute, 2010. ANSI/HI. 10.6, “Air operated pump tests,” Hydraulic Institute, 2004. Pei, 2016, The valve motion characteristics of a reciprocating pump, Mech Syst Signal Process, 66–67, 657, 10.1016/j.ymssp.2015.06.013 Opitz, 2010, Detection of cavitation phenomena in reciprocating pumps using a high-speed camera, ChemEng Technol, 33, 1610 Edge, 1984, Digital-computer simulation as an aid in improving the performance of positive displacement pumps with self-acting valves, Proc IMECHE, Part B J Eng Manuf, 198, 267 Johnston, 1991, Numerical modelling of reciprocating pumps with self-acting valves, Proc. IMECHE Part I J Syst Control Eng, 205, 87, 10.1243/PIME_PROC_1991_205_318_02 Shu, 1997, Pressure pulsations in reciprocating pump piping systems. part 1: Modelling, Proc IMECHE, Part I J Syst Control Eng, 211, 229, 10.1243/0959651971539768 Lee, 2015, Mathematical modeling of reciprocating pump, J f Mech l Sci Technol, 29, 3141, 10.1007/s12206-015-0713-x Ragoth, 2012, Study on performance of plunger pump at various crank angle using CFD, Eng Sci Technol Inte J, 2, 549 Iannetti, 2014, A computational fluid dynamics model to evaluate the inlet stroke performance of a positive displacement reciprocating plunger pump, Proc IMECHE, Part A, J Power Energy, 228, 574, 10.1177/0957650914530295 Iannetti, 2015, A CFD study on the mechanisms which cause cavitation in positive displacement reciprocating pumps, J Hydr Eng, 1, 47 Iannetti, 2016, A CFD and experimental study on cavitation in positive displacement pumps: benefits and drawbacks of the ‘full’ cavitation model, Eng Appl Comput Fluid Mech, 10, 57 Menéndez-Blanco, 2012, Unsteady numerical simulation of an air-operated piston pump for lubricating greases using dynamic meshes, Comput Fluids, 57, 138, 10.1016/j.compfluid.2011.12.014 Bergada, 2012, A complete analysis of axial piston pump leakage and output flow ripples, Appl Math Model, 36, 1731, 10.1016/j.apm.2011.09.016 Kumar, 2009, Axial Piston pump grooved slipper analysis by CFD simulation of three-dimensional NVS equation in cylindrical coordinates, ComputFluids, 38, 648 Srikanth, 2009, Flow analysis in valve with moving grids through CFD techniques, Adv Eng Softw, 40, 193, 10.1016/j.advengsoft.2008.04.003 Xu, 2011, Hydrodynamic characterization and optimization of contra-push check valve by numerical simulation, Ann Nucl Energy, 38, 1427, 10.1016/j.anucene.2011.01.013 Beune, 2012, CFD analysis with fluid-structure interaction of opening high-pressure safety valves, Comput Fluids, 64, 108, 10.1016/j.compfluid.2012.05.010 Valdés, 2014, Numerical simulation and experimental validation of the cavitating flow through a ball check valve, Energy Convers Manag, 78, 776, 10.1016/j.enconman.2013.11.038 2011 Patankar, 2002, Computational modelling of flow and heat transfer in industrial applications, Int J Heat Fluid Flow, 23, 222, 10.1016/S0142-727X(02)00170-4 ANSYS-FLUENT Meshing User's Guide. Release 15.0. ANSYS, Inc., 2013. Riemslagh, 1998, Simulation of incompressible flow in moving geometries Menéndez Blanco, 2017 Hirsch, 2007 Chen, 1998, Near-wall treatment turbulence models for complex flows including separation, AIAA Journal, 26, 641, 10.2514/3.9948 Wei, 2006