Our Core Expertise
Applied Aerodynamics
We provide advanced CFD analysis for applied aerodynamics across aerospace and automotive engineering. Our work supports design validation, aerodynamic optimisation, and research-grade flow investigations, helping teams translate simulation insights into measurable performance improvements.
Key Deliverables
External aerodynamic performance analysis
Drag reduction and lift balance optimisation
Boundary layer and flow separation analysis
Wake dynamics and vehicle interaction studies
Transient aerodynamic behaviour and flow stability evaluation
Underbody and diffuser flow development
Design optimisation and performance refinement through high-fidelity CFD simulations
Wind Engineering
We provide CFD simulation to support the design and assessment of buildings, urban environments, and infrastructure. Our simulations help evaluate wind impacts, improve environmental performance, and support compliance with planning and engineering standards.
Key Deliverables
Urban wind environment modelling
Building aerodynamics and pedestrian wind comfort analysis
Wind load assessment for structures
Natural ventilation and airflow optimization
Pollutant and dispersion analysis
Atmospheric boundary layer simulation for realistic wind conditions
Advanced Turbulence Modelling
Turbulence modelling is a fundamental challenge in computational fluid dynamics and requires careful physical interpretation beyond routine software operation. At CFD Lab, we apply scientifically grounded modelling strategies to capture complex turbulent flow phenomena with appropriate fidelity, balancing physical accuracy, numerical robustness, and computational efficiency.
Key Deliverables
Development and application of RANS, LES, and hybrid turbulence modelling frameworks
High-fidelity transient simulations for unsteady and vortex-dominated flows
Scale-resolving turbulence studies for detailed flow structure analysis
Numerical stability assessment, discretization strategy, and solver optimization
Grid convergence, sensitivity analysis, and verification studies
Model validation against experimental data or reference benchmarks
Guidance on turbulence model selection and simulation methodology for complex flow regimes
Customised CFD Solutions
Many engineering challenges involve complex flow phenomena that do not fit neatly within conventional categories. CFD Lab develops tailored CFD frameworks designed specifically for unique research or industrial problems, combining advanced physical modelling with robust and scalable numerical implementation.
Key Deliverables
Development of tailored CFD methodologies for specific engineering challenges
Implementation of advanced boundary conditions and specialized physical models
Automated simulation workflows and parametric study frameworks
High-performance computing (HPC) optimization and scalable simulation pipelines
Custom post-processing tools and data analysis for detailed flow diagnostics and insight
Start Your CFD Project with a FREE Consultation.
At 42 CFD Lab, we offer a complimentary initial consultation for all projects. During this consultation, our CFD specialists will:
Discuss your project objectives, technical requirements, and engineering challenges
Assess the feasibility, scope, and key considerations of the proposed work
Provide professional guidance on the most suitable CFD methodology, simulation strategy, and level of analysis for your application
Identify critical deliverables, project milestones, and success criteria
Recommend the collaboration model that best aligns with your technical needs, timeline, and budget
Our goal is to ensure that you start with the right CFD approach from the outset, maximizing technical value while minimizing project risk, cost, and development time.
By sharing as much information as possible, you enable us to tailor our recommendations and deliver accurate, actionable, and cost-effective engineering insights.
Get in touch today to discover how 42 CFD Lab can help solve your most complex fluid dynamics and engineering challenges.