Computational fluid dynamics (CFD)
One of the strongly developed branches of our activity is simulation support through computational fluid dynamics (CFD). In our work we rely on the OpenFOAM environment- an open-source environment that has been successively developed for over 10 years by scientific and engineering communities worldwide. It is a fully modifiable source code, which can be extended or supplemented with self-developed code as needed. The advantage of OpenFOAM over commercial software is the possibility of modifying the source code which allows to develop custom-made models, which precisely describe the physical problem at any level. In many problems, there is often a need to implement dedicated boundary conditions and / or non-standard computational algorithms. We specialize in performing “tailored” CFD simulations: we are able to analyze almost any process that can be described by computational fluid mechanics. Our company’s staff has the necessary qualifications and many years of experience in performing CFD simulations, it is also supported by professional scientists. Our offer includes (but it is not limited to):
- aerodynamic simulations,
- air distribution (ventilation, air conditioning, air treatment devices),
- single and multiphase flows,
- heat and / or mass transfer in single and multiphase flows,
- combustion processes,
- fire ventilation, smoke distribution.
We are able to perform simulations for most of the physical phenomena that engineers and/or scientists may face in their work. If you have a difficult problem which can be described by CFD methods- contact us, we will surely find a solution.
Heat transfer
Many processes and technologies require development of dedicated heat transfer solutions, which are characterized by complex mathematical description which cannot be solved using traditional engineering methods. This is especially important for processes such as multiphase heat transfer or frost formation. H&M uses a unique method of mathematical modeling of heat and mass transfer processes, based on the numerical ε-NTU method. The method allows us to solve even the most complex aspects of heat transfer.
Our offer includes (but it is not limited to):
- multi-phase heat and mass transfer,
- evaporation and condensation processes,
- adsorption and absorption,
- frost formation and anti-frost protection,
- energy recovery.
The high qualifications of our research team allow us to solve most of the heat transfer issues which can occur in engineering. We encourage you to contact us with any problem – our team will surely find a solution.