Tailored OpenFOAM courses covering fundamentals, advanced techniques, and real-world applications.
Training
Hands-on OpenFOAM workshops and personalized training for enhanced practical skills.
Consultancy
Expert guidance on implementing OpenFOAM solutions for complex engineering challenges.
Cutting-Edge Research in Computational Fluid Dynamics
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Turn-key CFD Simulation Development
Our research team continuously develops and refines algorithms to enhance OpenFOAM's capabilities, focusing on improving accuracy and computational efficiency for complex fluid dynamics simulations.
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Explore Novel Applications
We explore innovative applications of OpenFOAM in emerging fields such as bioengineering, renewable energy, and advanced materials, pushing the boundaries of computational fluid dynamics.
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Collaborative Research Initiatives
Virtual Flow actively participates in joint research projects with universities and industry partners, contributing to the global advancement of CFD knowledge and techniques.
Integrated CAE Solutions
Automated Workflow Design
We create custom automated workflows that seamlessly integrate CAE processes with AI algorithms, optimising resource utilisation and reducing manual intervention.
High-Performance Computing Integration
Our solutions leverage the power of HPC environments, enabling efficient parallel processing for large-scale simulations and data-intensive AI operations.
AI-Driven Optimisation
Implementing machine learning algorithms to enhance simulation accuracy, predict outcomes, and optimise design parameters in CAE applications.
Scalable Infrastructure
Designing and implementing scalable server infrastructures that grow with your computational needs, ensuring long-term flexibility and performance.
Industry-Specific OpenFOAM Applications
Aerospace
Advanced aerodynamics simulations for aircraft design, optimising performance and fuel efficiency.
Automotive
Comprehensive CFD analysis for vehicle aerodynamics, thermal management, and HVAC systems.
Marine Engineering
Hull design optimisation and propulsion system analysis for improved vessel performance.
Renewable Energy
Wind turbine aerodynamics and tidal energy system simulations for enhanced energy production.
Customised OpenFOAM Training Programmes
Beginner's OpenFOAM Bootcamp
Intensive 5-day programme covering OpenFOAM basics, case setup, meshing techniques, and solver configuration. Hands-on exercises and real-world examples included.
Advanced OpenFOAM Techniques
In-depth exploration of advanced topics such as turbulence modelling, multiphase flows, and custom solver development. Suitable for experienced users looking to expand their expertise.
Industry-Specific OpenFOAM Applications
Tailored courses focusing on OpenFOAM applications in specific industries, such as automotive aerodynamics, aerospace propulsion, or offshore engineering. Includes industry-relevant case studies and best practices.
Innovative CAE AI Automation Solutions
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Data Preprocessing
AI-driven algorithms automatically clean, format, and optimise input data for CAE simulations, significantly reducing manual preparation time.
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Intelligent Meshing
Machine learning techniques generate optimal mesh configurations based on geometry and simulation requirements, ensuring high-quality results with minimal user intervention.
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Adaptive Simulation Control
AI monitors simulation progress in real-time, adjusting parameters and refining mesh as needed to optimise accuracy and computational efficiency.
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Automated Result Analysis
Advanced AI algorithms analyse simulation outputs, identifying key trends, anomalies, and areas of interest, providing engineers with actionable insights.