Our way of working
At DEMCON Bunova we strive to offer the highest quality engineering service tailored to each client’s specific need. Our technical consultants use a professional elicitation process to clarify the requirements and roots of the problem that needs tackling.
Our consultants have strong academic and industry background and include software vendors. They all have obtained master degrees in de field of science and engineering and at least a third have completed PhDs. This enables Bunova to provide you with a competent consultant who possesses the relevant academic skills and experience.
We are able to quickly grasp most problems and propose a useful set of simulations to shed line on the problem. After jointly defining work packages, a cost estimation based on an ongoing hourly rate or a fixed price quote will be prepared and discussed with the client.
Depending on the complexity and scope of the problem, we use a step-by-step approach to build-up the model to generate meaningful results. Naturally, interim results will be discussed between the client and our consultant to make sure we are progressing in the right path.
Projects are concluded with a PowerPoint based report or a more comprehensive written report if needed. Our results summary always comes with concrete conclusions and recommendations.
We prefer to work from our own offices but we understand that in order to kick-start larger projects spending some days between the clients engineering teams on your location can make the difference.
We take confidentiality very seriously and it is common for us to work with clients with a non-disclosure agreement (NDA) in place.
Depending on the topic, a large number of important choices have to be made when going through the simulation process. These choices have an effect on the outcome of the simulation and define whether it is appropriate representation of the real physics.
Generally, the setup, execution and evaluation of simulations follows the following three steps:
The product geometry must be divided into millions of elements for which the computer on an individual level will determine all required physics. Dividing the geometry into a large number of volume elements allows us to analyze any given product geometry. This, together with choosing the right type of elements, is called meshing. The quality of the mesh has influence on the accuracy, convergence and speed of the solution. Boundary conditions and material properties have to be added to complete the model. Specific conditions can be pressures, temperatures, forces or for example, speeds, all depend on the type of problem.
Once the model has been completed, the actual calculations to simulate physics can start. Simulations can be ‘steady state’ or ‘transient’. A steady state calculation means that there is no time-dependency. This for example is often the case with mechanical stress problems as the forces are in equilibrium. Transient problems also have a dependency on time. The temperature rise profile from filling a cold mug with hot coffee is a good example of a time dependent case.
The results of the simulation, or parts of it, are visualized to ease evaluation. Contour plots, graphs and tables are created as required. The knowledge and insights which are obtained from the simulation are used by our engineers confirm whether a product works as expected or whether adjustments have to be made. Preferably, a FEM / CFD calculation is made at an early stage in the development process as a good final design often requires a number of iteration. This often saves a lot of time and money.
Partners and software
Ansys is a major global player in the field of computer-aided engineering (CAE). Mainly used for (thermos) mechanical, thermal and flow technical analyzes.
Sorama offers unique high-resolution acoustic cameras to detect and analyze noise and vibrations. Their cameras use patented technology for visualization and localization of sound and vibrations.
3D CAD files of the product that needs to be analyzed are an extremely helpful starting point. Are default CAD tool is SolidWorks. Importing CAD files from other software is usually not a problem.