A simulation of the flow is in comparison to a flow measurement
- faster
- cheaper and
- does not require any safety precautions.
Numerical flow simulation is above all an important development tool if measurement is too time-consuming, cost-intensive or not possible for safety reasons. In addition, the benefit relates to the energy consumption of any technical equipment and vehicles that have gas, air or liquids flowing around or through them. For example, in a car, turbocharger, pump, pipeline as well as a vacuum cleaner, the energy consumption is directly dependent on flow or pressure losses. The cause of a flow or pressure loss is flow separation, also called recirculation. These are caused, among other things, by component elements, which are located in the flow guidance and sharp deflections as well as in unsteady cross-sectional expansions. By means of a CFD simulation, unfavorable flow patterns can be uncovered and minimized early on in the development process. A CFD simulation is therefore a tool for optimizing flow-carrying components and systems in a targeted manner and, above all, for designing them in an energy-efficient manner.
What is a CFD simulation? - A brief mathematical background
Although flows and related phenomena can be described with differential equations, they cannot be solved analytically (apart from a few special cases). Computational fluid dynamics uses various mathematical-physical model equations in order to achieve a technically usable flow solution through approximate calculation of the equations. The most frequently used model equations are, for example, the Navier-Stokes equations, Euler equations, Stokes equations as well as the potential equations.
What is flow simulation? - The fields of application
Fluid mechanics challenges include pervasive problems related to both pressure drop, uniform distribution, and heat transfer in complex systems, as well as energy consumption. CFD simulation is also typically applied to fluid, gas, and bulk material flows. Furthermore, the benefits of flow simulation therefore extend across diverse industries, products and processes. Examples are
- Flow around vehicles, missiles, hulls
- Engine cooling systems, battery cooling systems
- Car air conditioning
- medical inhalers, filters
- Heat exchanger
- Mixer
- Vacuum cleaner, vacuum cleaner nozzles
- Design and optimization of pumps
- Aerodynamics of helmets, bicycles, ski bindings
- Burners, furnaces, pressure boilers, exhaust gas aftertreatment
On these pages you will also learn, how you can accelerate and optimize your product development process with the help of CFD simulations.
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Thematic contributions and project examples
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