Our Expertise
COMPUTATIONAL FLUID DYNAMICS
- Steady state and transient CFD simulations of internal/external liquid and gas flows
- Analysis, design and optimization of immersed or surrounding components
- Optimum turbulence modelling approaches: RANS, URANS, RSM, LES, DES
- Incompressible, transonic and compressible flows
- Rotating equipment and moving bodies
- Multiple reference frames, rotating and sliding interfaces, deformable meshes
- Fluid-structure interaction
- Heat transfer and thermal modelling
- Multiphase and free surface flows
- Flow mixing
- Spray and dispersion analysis
FINITE ELEMENT ANALYSIS
- Linear and non-linear static: Response of structure to critical loads and modelling of contact (allowing analysis of assemblies), non-linear material behaviour and large deformations
- Buckling: Critical compression static load or combination of loads that results in instability
- Normal modes, frequency response and response spectrum: Response to vibrations and frequency driven excitations.
- Random response: Response of structure to excitations defined with probabilistic magnitude (spectral density function)
- Transient, dynamic, vibration and seismic response: Response of structure through time with variations of boundary condition
- Impact (implicit and explicit solvers): Response of structure following collision (crash tests and drop tests)
- Steady state and transient heat transfer: Temperature distribution within a solid body
- Thermal stress: Stress induced by temperature distribution
- Fatigue (multi axial and vibration fatigue analysis): Predict the life of a structure subjected to cyclic loading or vibrations
- Optimization: Parametric and Topological
- Forensic engineering: Failure analysis and root cause diagnostic, reconstruction of impact and accident using simulation, biomechanical engineering.