INTRODUCTION
A subfield of fluid science and technology known as computational fluid dynamics (CFD) simulates fluid flow, phase change, and temperature changes in any thermo-fluid system using cutting-edge numerical techniques and computer program-based algorithms.
It is used to resolve or simulate the flow fields connected to any kind of fluid and forecast changes in the intrinsic and extrinsic characteristics of any closed system. The use of CFD has increased with the development of graphics processing units in computer engineering because it makes it easier to visualize the resolved fields of fluid property in more understandable forms.
To better comprehend different flows and related phenomena, you can use CFD to model complex situations involving fluid-fluid, fluid-solid, or fluid-gas interactions. The findings can then be analyzed.
A few of the research and engineering issues to which CFD is applied include Aerodynamics, Aerospace Analysis, Hypersonics, Weather Simulation, Natural Science & Environmental Engineering, Industrial System Design & Analysis, Biological Engineering, Fluid Flows & Heat Transfer, Engine & Combustion Analysis, Visual effects for movies and video games.
Areas We Work
- Single phase and Multiphase flows Internal and External flows
- Fluid Structure Interaction (FSI)
- Hydrodynamic analysis
- Aeroacoustics
- Combustion
Advantages of CFD
- Cost Effective
- Reliable results
- Design Evaluation
- Performance Evaluation
- Reduced turn around time
- Effective simulation of flow in fluids
- Unlimited level of detail in the system
- Powerful visualization capabilities
- Analyze difficult & dangerous experiments