- Computational fluid Dynamics is a branch of fluid mechanics that solves and numerically analyzes states dependent on fluid motions by generating grid structures. Computers and advanced CFD solvers are used to make the necessary calculations to simulate free stream flow of the fluid and its interaction with the boundary conditions. Advanced CFD solvers use physical laws in the form of partial differential equations into algebraic equations, enabling these equations to be solved numerically efficiently. In order to validate method of analyzes, previously validated analyzes can be used to compare or comparing test results of scaled models, while actual validation should be performed using full-scale tests.
- CFD analysis is of utmost importance in order to achieve desired optimum solution in product development and design. In this manner, TASECS effectively uses CFD in product development and design activities with its expert and experienced engineers.
TASECS’ competencies in CFD
- Performing thermal and flow analyzes of products to achieve optimum design solutions and of test setups to minimize the time spent in testing processes.
- Developing mathematical models for the solution of complex engineering problems and reflecting these models to the analysis in the computer environment in order to reach the most accurate solution,
- Analyzing the design products and prototypes before they are produced, examining these analyzes in detail and confirming that they meet the required design features and system requirements,
- Creating detailed reports of flow analyzes of relevant models with findings, inferences and recommendations.