With cross-sector task definitions, there is an ongoing goal of functional improvements of overarching processes by means of a geometry optimised by fluid mechanics. Therefore, we use, as well as our fluid mechanics engineers and thermodynamic experts, the appropriate product development tools in order to develop series production solutions more quickly. As a first step, an overnight computer run to calculate complex fluidic connections is preferred to an expensive geometric sample.
Computer simulation of heat flows and temperature distribution is an ideal instrument for significantly reducing development time. This makes you faster than the competition and able to launch your products on the market in good time, and at the same time with greater product safety.
To supplement the interdisciplinary expertise of our specialists, we use simulations for the evaluation and interpretation of:
We keep trials to a minimum. Concepts, designs and components are dimensioned at an early stage in such a way that they can carry out their functions efficiently. Issues are already identified when any adjustments necessary in order to ready the product for series production are still possible without problems. Thus, they are not only limited to the reduction of prototype costs. The manufacturing costs are established when the product is first developed. Procedural dimensioning and design determine levels up to 80%! In addition, in the early development stages, functional improvements can be simulated and functions optimised, before time-consuming and costly prototypes are constructed. This improves the quality of both design and product. The long experience of our process engineers together with innovative concepts enables us to develop systems that achieve fast results for our different areas of responsibility, with maximum energy efficiency. A challenge which our engineers and technicians meet with enthusiasm.
It's always worth having a discussion - so please feel free to contact us!
Examples of applications include drying, infrared radiation, IR drying, UV curing, convection drying, hot-air drying, air drying, and radiant heat and vacuum drying.