- Authors
- Lukas Muttenthaler Institute of Machine Design and Hydraulic Drives, Johannes Kepler University, Linz
- Bernhard ManhartsgruberInstitute of Machine Design and Hydraulic Drives, Johannes Kepler University, Linz
- title
- Optimizing hydraulic reservoirs using euler-eulerlagrange multiphase cfd simulation
- Please use the following URL when quoting:
- https://nbn-resolving.org/urn:nbn:de:bsz:14-qucosa2-711000
- conference
- 12th International Fluid Power Conference (12. IFK). Dresden, October 12 – 14, 2020
- Source
- Volume 1 – Symposium - 1
Erscheinungsort: Dresden
Verlag: Technische Universität Dresden
Erscheinungsjahr: 2020
Bandnummer Schriftenreihe: 1
Seiten: 295-304
DOI: 10.25368/2020.6 - doi
- https://doi.org/10.25368/2020.37
- Abstract (EN)
- Well working hydraulic systems need clean hydraulic oil. Therefore, the system must ensure the separation of molecular, gaseous, liquid and solid contaminations. The key element of the separation of contaminants is the hydraulic reservoir. Solid particles are a major source of maintenance costs and machine downtime. Thus, an Euler-Euler-Lagrange multiphase CFD model to predict the transport of solid particles in hydraulic reservoirs was developed. The CFD model identifies and predicts the particle accumulation areas and is used to train port-to-port transfer functions, which can be used in system models to simulate the long-term contamination levels of hydraulic systems. The experimental detection of dynamic particle contamination levels and particle accumulation areas validate and confirm the CFD and the system model. Both models in combination allow for parameter and design studies to improve the fluid management of hydraulic reservoirs.
- Keywords (DE)
- 12. IFK, Hydraulikbehälter, Partikelverunreinigung, Mehrphasen-CFD-Simulation, Optimierung
- Keywords (EN)
- 12th International Fluid Power Conference, Hydraulic Reservoir, Particle Contamination, Multiphase CFD Simulation, Optimization
- Classification (DDC)
- 620
- Classification (RVK)
- ZQ 5460
- university_publisher
- Technische Universität Dresden, Dresden
- corporation_other
- Dresdner Verein zur Förderung der Fluidtechnik e. V. Dresden, Dresden
- version
- publizierte Version / Verlagsversion
- URN Qucosa
- urn:nbn:de:bsz:14-qucosa2-711000
- Qucosa date of publication
- 25.06.2020
- Document type
- in_proceeding
- Document language
- English
- licence