Computational Fluid Dynamics (CFD)
Computational Fluid Dynamics (CFD)
Flow and thermal simulation to optimize performance, reduce pressure losses, control cavitation, and validate thermal management strategies across components and systems.
Key capabilities
Steady and transient CFD, laminar and turbulent flows
Multiphase flow, cavitation, and free-surface modeling
Conjugate heat transfer and coupled thermal-fluid analysis
Pump performance mapping and system-level flow studies
Flow-induced vibration and FSI coupling (with FEA)
Mesh generation and refinement, solver validation
Post-processing: velocity, pressure, turbulence, and particle tracking
Typical deliverables
Summary report with performance metrics
Pressure-drop maps, flow separation and recirculation visualizations
Pump head/efficiency curves and cavitation risk zones
Thermal maps and heat-flux distributions
Recommendations for geometry, porting, and sealing improvements
Applications / Customers
Valve flow paths, trim optimization, and seat leakage studies
Pump hydraulics and system integration
Heat exchangers and thermal management systems
HVAC and fluid distribution systems
Call to action
Upload your geometry and target flow conditions for a preliminary CFD study proposal.