TY - JOUR
AU - Hetze, F
AB - Although dry scroll vacuum pumps (DSPV) are essential devices in many different industrial processes, the CFD simulation of such pumps is not widely used and often restricted to simplified cases due to its complexity: The working principle with a fixed and an orbiting scroll leads to working chambers that are changing in time and are connected through moving small radial and axial clearances in the range of 10 to 100 μm. Due to the low densities and low mass flow rates in vacuum pumps, it is important to include heat transfer towards and inside the solid components. Solid heating is very slow compared to the scroll revolution speed and the gas behaviour, thus a special workflow is necessary to reach the working conditions in reasonable simulation times. The resulting solid temperature is then used to compute the thermal deformation, which usually results in gap size changes that influence leakage flows. In this paper, setup steps and results for the simulation of a DSVP are shown and compared to theoretical and experimental results. The time-varying working chambers are meshed with TwinMesh, a hexahedral meshing programme for positive displacement machines. The CFD simulation with ANSYS CFX accounts for gas flow with compressibility and turbulence effects, conjugate heat transfer between gas and solids, and leakage flows through the clearances. Time-resolved results for torques, chamber pressure, mass flow, and heat flow between gas and solids are shown, as well as time- and space-resolved results for pressure, velocity, and temperature for different operating conditions of the DSVP.
TI - CFD simulation of a dry scroll vacuum pump with clearances, solid heating and thermal deformation
JO - IOP Conference Series: Materials Science and Engineering
DO - 10.1088/1757-899X/232/1/012052
DA - 2017-08-01
UR - https://www.deepdyve.com/lp/iop-publishing/cfd-simulation-of-a-dry-scroll-vacuum-pump-with-clearances-solid-na03OWf021
SP - 012052
VL - 232
IS - 1
DP - DeepDyve
ER -