Development of hydraulic tanks by multi-phase CFD simulation

Vollmer, Thees, Frerichs, Ludger

28 April 2016

Hydraulic tanks have a variety of different tasks. The have to store the volume of oil needed for asymmetric actors in the system as well as to supply the system with preconditioned oil. This includes the deaeration as air contamination is affecting the overall system performance. The separation of the air in the tank is being realized mainly by passive methods, improving the guidance of the air and oil flow. The use of CFD models to improve the design of hydraulic tank is recently often discussed. In this paper, a design method for hydraulic tanks using CFD is presented and discussed. First the different requirements on a hydraulic tank are described as well as the motivation changing the tank designs. Additionally, a quick overview on different calculation models for the behavior of air in oil as well as the capabilities of CFD to reproduce them is given. After this the methodology of tank design applying CFD is presented. The method is then used in an example.

hydraulic tank

hydraulic reservoir

tank design

air in oil

deaeration

CFD

ddc:620

ddc:ZQ 5460

A Study of a Volvo CE Articulated Hauler’s Hydraulic Tank : Validation of a Finite-Element Model Taking the Fluid-Structure Interaction into Account

Janousek, Miroslav, Burnotte, Thibault

January 2018

This scientific work is dedicated to the study of the impact of vibrations on the Volvo A60 articulated hauler’s hydraulic tank taking fluid-structure interaction into account. In this work, a theoretical background is presented in order to give the reader a basic awareness of the given problem together with a detailed description of the methods used during the examination of the above mentioned hydraulic tank. To perform an analysis of the finite-element model, ANSYS software was used while ANSA and META were used as the pre- and post-processor. Matlab was used in order to compare the obtained data. As a result of the analysis, this work provides a simplified and yet accurate model and a description of some of the minor problems present in the original Volvo CE model. In order to solve those issues, solutions are proposed.

Finite-Element Analysis

Fluid-Structure Interaction

V ibrations

Hydraulic Tank

ANSYS

ANSA

META

Matlab

Volvo

Mechanical Engineering

Maskinteknik

Development of hydraulic tanks by multi-phase CFD simulation

Vollmer, Thees, Frerichs, Ludger

January 2016

Hydraulic tanks have a variety of different tasks. The have to store the volume of oil needed for asymmetric actors in the system as well as to supply the system with preconditioned oil. This includes the deaeration as air contamination is affecting the overall system performance. The separation of the air in the tank is being realized mainly by passive methods, improving the guidance of the air and oil flow. The use of CFD models to improve the design of hydraulic tank is recently often discussed. In this paper, a design method for hydraulic tanks using CFD is presented and discussed. First the different requirements on a hydraulic tank are described as well as the motivation changing the tank designs. Additionally, a quick overview on different calculation models for the behavior of air in oil as well as the capabilities of CFD to reproduce them is given. After this the methodology of tank design applying CFD is presented. The method is then used in an example.

info:eu-repo/classification/ddc/620

ddc:620

info:eu-repo/classification/ddc/ZQ 5460

ddc:ZQ 5460