The role focuses on developing novel high-order CFD techniques to accurately simulate the complex jet regime involved in contrail formation
Job Summary
The role focuses on developing novel high-order CFD techniques to accurately simulate the complex jet regime involved in contrail formation.
The successful candidate will work on the next-generation CODA solver, co-supervised by Airbus and CERFACS, to advance aircraft design capabilities.
Candidates benefit from a comprehensive package including attractive salary, profit sharing, flexible working arrangements, and access to over 10,000 e-learning courses.
Matching Summary
The role focuses on developing novel high-order CFD techniques to accurately simulate the complex jet regime involved in contrail formation.
Salary
Attractive salary; Profit sharing and employee savings plan; Stock purchase plan available
Skills & Requirements
Must-have
High-order CFD methods
Discontinuous Galerkin Spectral Element Method
Object-oriented programming C++ Python
Applied Mathematics or Fluid Dynamics degree
Numerical methods for CFD
Nice-to-have
Scientific communication skills
Collaboration in international teams
Experience with complex aerodynamic flows
Advanced English proficiency
Key Requirements
Engineering or research master degree in Applied Mathematics or Fluid Dynamics
Mastering object-oriented programming in C++ and Python