Taking virtual product development and process design to a new level of efficiency
OpenLB makes simulation software accessible to SMEsOpenLB is based on the Lattice Boltzmann Method (LBM). At first, this method was largely overlooked because it required too much computing power and was so different to established approaches. But the world has changed, and today it has become a much more attractive proposition. Even kids playing the latest computer game on their graphics card (GPU) late at night now have the necessary computing power under their desk. Commercial and open-source LBM software is now widely available, and companies like DLR, Airbus and Porsche have already been using it for computational fluid dynamics (CFD) for over ten years.
But as wide as the range of available software is, training people to use it and developing your own setup can be very costly. This is where the OpenLB software supported by the Steinbeis experts in Wörth am Rhein comes in. “OpenLB is a powerful open-source CFD solution that provides a lattice Boltzmann alternative to OpenFOAM and includes several ready-made tutorials and example applications”, says Steinbeis Entrepreneur PD Dr. Mathias Joachim Krause. What sets it apart is that it can perform calculations up to 32 times faster on standard CPUs, and many more times faster than this on GPUs. Users can thus easily perform simulations with several hundred million cells even on desktop computers. Moreover, OpenLB can be adapted to your company’s specific requirements.
OpenLB does the meshing for you
The nodes are generated fully automatically within the specified geometry in a matter of seconds, making manual meshing a thing of the past. A range of tutorials corroborated by established benchmarks are available. Examples include virtual wind tunnels, continuous stirred-tank reactors, pumps, reactors, filters and even blood vessels – with fluids simply flowing through or being mixed, separated, reacted, heated and cooled. Several ready-to-use models are also available for particulate and non-Newtonian flows, including in dissolved and undissolved porous media. The scalable software makes it possible to perform accurate large eddy or direct numerical simulations for industrial applications, with or without mesh refinement.
Goodbye manual parameter studies
As Mathias Joachim Krause emphasizes, “The integrated sensitivity analysis and optimization functions dispense with the need for trial-and-error methods and laborious parameter setting”. This means that the simulation setup can be automatically checked for relevant dependencies during runtime and the appropriate solution identified directly from the simulation, saving time and money. What previously took several weeks can now be done in a matter of hours. The Steinbeis experts are rightly proud of this quantum leap in efficiency that helps to take product development to the next level.
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