TY - GEN
T1 - Effiziente CFD-simulationen zur berechnung des schleppmoments nasslaufender lamellenkupplungen im abgleich mit prüfstandmessungen
AU - Grötsch, D.
AU - Völkel, K.
AU - Pflaum, H.
AU - Stahl, K.
AU - Niedenthal, R.
N1 - Publisher Copyright:
© 2019, VDI Verlag GMBH. All rights reserved.
PY - 2019
Y1 - 2019
N2 - Wet-running multi-disk clutches and brakes are an important component of modern powershift transmissions and industrial drive trains. In the open state drag losses occur due to fluid shear. The goal of development is to reduce these losses. This requires a detailed knowledge of the flow conditions in the clutch in order to identify the formation and influencing factors of the losses and, in a further step, to make the design of future clutches loss-reduced. This article presents an evaluation method for drag torque measurements and a stationary, isothermal simulation model, which is implemented in the commercial CFD-Software SimericsMP+. The CFD-Model includes the geometry of a complete clearance for the calculation of drag moments. First, the oil capacity of the open clutch and the drag torque in the linear range are calculated by means of a single-phase flow simulation. The drag torque of operating points in the subsequent non-linear range are calculated using a cavitation model. The presented 3D simulation model for the prediction of the drag torque of a wet-running multi-disk clutch shows promising results in comparison with measurements on the component test rig LK-4. The trend of the calculated drag torque is well reproduced qualitatively and quantitatively. The influences of changes in operating conditions, oil injection temperature and volumetric flow rate are shown both in the measurement and in the simulation results. Due to the short calculation times, the simulation model is a good way of estimating the drag torque of a clutch at an early stage of development.
AB - Wet-running multi-disk clutches and brakes are an important component of modern powershift transmissions and industrial drive trains. In the open state drag losses occur due to fluid shear. The goal of development is to reduce these losses. This requires a detailed knowledge of the flow conditions in the clutch in order to identify the formation and influencing factors of the losses and, in a further step, to make the design of future clutches loss-reduced. This article presents an evaluation method for drag torque measurements and a stationary, isothermal simulation model, which is implemented in the commercial CFD-Software SimericsMP+. The CFD-Model includes the geometry of a complete clearance for the calculation of drag moments. First, the oil capacity of the open clutch and the drag torque in the linear range are calculated by means of a single-phase flow simulation. The drag torque of operating points in the subsequent non-linear range are calculated using a cavitation model. The presented 3D simulation model for the prediction of the drag torque of a wet-running multi-disk clutch shows promising results in comparison with measurements on the component test rig LK-4. The trend of the calculated drag torque is well reproduced qualitatively and quantitatively. The influences of changes in operating conditions, oil injection temperature and volumetric flow rate are shown both in the measurement and in the simulation results. Due to the short calculation times, the simulation model is a good way of estimating the drag torque of a clutch at an early stage of development.
UR - http://www.scopus.com/inward/record.url?scp=85106057108&partnerID=8YFLogxK
M3 - Konferenzbeitrag
AN - SCOPUS:85106057108
SN - 9783180923390
SN - 9783180923406
SN - 9783180923413
SN - 9783180923420
SN - 9783180923437
SN - 9783180923451
SN - 9783180923468
SN - 9783180923475
SN - 9783180923482
SN - 9783180923499
SN - 9783180923505
SN - 9783180923512
SN - 9783180923529
SN - 9783180923536
SN - 9783180923543
SN - 9783180923567
SN - 9783180923574
SN - 9783180923581
SN - 9783180923598
SN - 9783180923604
SN - 9783180923611
SN - 9783180923628
SN - 9783180923635
SN - 9783180923642
SN - 9783180923659
SN - 9783180923666
T3 - VDI Berichte
SP - 101
EP - 117
BT - VDI Berichte
PB - VDI Verlag GMBH
T2 - VDI symposium on Couplings and coupling systems in drives, 2019
Y2 - 26 March 2019 through 27 March 2019
ER -