What You'll Do
In this role, you'll use high-performance computing and computational fluid dynamics to analyze and improve the performance of critical infrastructure and built environments. You'll model how wind interacts with urban spaces, assess how pollutants disperse in urban and industrial settings, and simulate airflow and ventilation in tunnels, data centres, and buildings.
You'll also investigate aerodynamic effects around high-speed rail systems, evaluate aircraft wake behavior, and study thermal and evaporative processes in engineered systems. Your work will include simulating natural ventilation, solar heat gain, and stack-driven airflow in buildings, as well as developing intricate parametric models to support design optimization.
Projects will span across international and UK-based developments, contributing to sustainable engineering solutions that meet environmental and safety standards.
Requirements
- Proven background in computational fluid dynamics (CFD)
- Demonstrated ability to tackle complex technical challenges with effective problem-solving strategies
Benefits
- Access to professional growth programs and technical training through an internal learning platform
- Participation in technical communities and practice networks
- Opportunities for volunteering and community engagement
- Hybrid working arrangement designed to support personal and professional balance
- Emphasis on employee well-being and inclusive collaboration
