Research Projects
- Dynamic Cross-Flow Filtration
- Sedimentation of arbitrary shaped particles
- A Lattice Boltzmann Method for Light and Algae Simulations in Photobioreactors
- Insulation optimization for an innovative cooling system for commercial vehicles
- Particulate flows with high disperse phase fraction
- Fundamental investigation of particle-layer rearrangement in ceramic wall flow filters by resolved particle simulations
- Potential for damage to fruits
- Modelling and Simulation of Multidimensional Fractionation in Fine Particle Systems and their Application
- Bridging the Gap – Mathematical Optimization Methods and Efficient Algorithms for Process Engineering Problems
- OpenLB – An Open Source High Performance Lattice Boltzmann Code for Heterogeneous CPU-GPU Clusters
- Virtual Collaboration Laboratories
Insulation optimization for an innovative cooling system for commercial vehicles
Project description
The temperature of deep-frozen foods must not rise above -18°C during the transport in cooling vehicles. The vehicle’s walls therefore need an efficient insulation as they could not be of any thickness, because the vehicle’s width is restricted to a maximum of 2,60m while the cargo area should provide space for two side to side euro palettes.