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Services we provide
Ark Edge Solutions Services
Ark Edge Solutions
CFD simulation
CFD simulation is a powerful tool for engineers and scientists to analyze the behavior of fluids and gases in various applications. CFD simulations can provide detailed information about the flow of fluids and gases, such as velocity, pressure, temperature, and turbulence. This information can be used to optimize designs, improve product performance, and reduce costs. CFD simulations can also be used to predict the behavior of fluids and gases in complex systems, such as those found in the aerospace, automotive, and energy industries. CFD simulations can also be used to analyze the effects of environmental factors, such as wind, on the performance of a system. The benefits of CFD simulations include:
1. Improved design
CFD simulations can be used to optimize designs and improve product performance.
2. Reduced costs
CFD simulations can be used to reduce costs by eliminating the need for physical testing.
3. Increased safety
CFD simulations can be used to analyze the effects of environmental factors on the performance of a system, which can help to reduce the risk of accidents.
4. Improved understanding
CFD simulations can provide detailed information about the behavior of fluids and gases, which can help to improve the understanding of complex systems.
Services we provide
Ark Edge Solutions Services
ANSYS Fluent can model a wide range of flow regimes, including laminar, transitional, and turbulent flows; compressible and incompressible flows; and single-phase and multiphase flows. It can also model a variety of physical phenomena, such as heat transfer, mass transfer, chemical reactions, and combustion. Moreover, aircraft icing, dispersed flow, free surface flow, reacting flow, and non-Newtonian flow are important regimes.
ANSYS Fluent includes the following modules
- Turbulence Modeling
- Combustion Modeling
- Multiphase Modeling
- Heat Transfer Modeling
- Acoustics Modeling
- Species Transport Modeling
- Discrete Phase Modeling (DPM)
- Mesh Deformation Modeling (Dynamic Mesh)
- Moving Mesh Modeling
- Particle Tracking Modeling
- Discrete Element Modeling
- Fluid Structure Interaction Modeling (FSI)
- Optimization Modeling (RBF Morph)
- Design of Experiments Modeling (DOE)
- Automation Modeling
- User Defined Functions Modeling (UDF)
- Turbomachinery Modeling
- Radiation Modeling
- Thermal FSI Modeling
- Large Eddy Simulation Modeling (LES)
- Solidification and Melting Modeling
- Fan Modeling