Wind Energy Services
Our wind engineering team provides advanced analysis and simulation services to support the safe, efficient, and sustainable design of wind and solar energy projects. With expertise in CFD, wind tunnel testing, and structural engineering, we help developers, contractors, and regulators make informed decisions.
Our Process
- Wind Energy Yield Analysis (Complex Terrain)
We assess wind energy potential in complex landscapes where commercial software falls short including ridgelines, forests, and coastal areas. Our CFD and engineering methods capture turbulence and speed-up effects for more reliable yield predictions.
- Blade Throw Simulation
We model the trajectory and impact zones of turbine blade fragments in rare failure events. This ensures compliance with safety standards, helps determine setback distances, and protects surrounding communities and infrastructure.
- Solar Farm Foundation Wind Erosion Simulation
Our erosion simulations identify how wind affects soil stability around solar farm foundations. Results guide ground treatments, windbreaks, and optimized layouts that improve durability and reduce maintenance costs.
- Wind Turbine Load Analysis
We evaluate aerodynamic loads on towers and foundations under realistic wind conditions including turbulence, gusts, and wakes to provide structural input for safe and resilient designs.
- Fatigue and Lifetime Assessment
By simulating site-specific wind conditions, we assess fatigue loads over millions of cycles. This helps extend turbine lifetime, reduce operational risks, and optimize maintenance schedules.
- Wind Farm Layout Optimization
Using CFD and wake modelling, we optimize turbine placement to maximize energy yield while minimizing wake-induced structural fatigue.
- Offshore & Coastal Structure Interaction
We analyse the combined effects of wind and waves on offshore turbines and coastal structures, ensuring resilience under extreme weather and compliance with international codes. - Extreme Wind & Storm Risk Assessment
From cyclones to downbursts, we simulate site-specific extreme winds and their structural impacts. This reduces project risks in regions exposed to severe weather events.