Quality at the heart of everything we do. FT Technologies is a market-leading SME based in Surrey and Madrid, specialising in designing and manufacturing ultrasonic wind sensors – also known as anemometers or air-flow sensors. FT ultrasonic wind sensors are unique because we use acoustic resonance to measure wind speed, direction, and temperature using an acoustic wave resonated inside a small cavity. The wind energy industry is growing, and FT is growing with it; this is your place if you care about sustainability and the green revolution. In the last decade, we have tripled in size. We employ around 100 brilliant minds who contribute to our mission: to engineer invention through curiosity and creativity using our core technology. The development of our current technology will enable us to serve our existing customers in wind energy better. With significant company investment and growth, the invention of new products and manufacturing technology will offer our wind sensors' unique strengths to meteorology, marine and defence customers. Responsible to the Principal Research Engineer Key contacts include the Director of R&D, Engineering team members, Technology, Manufacturing, Quality, Sales, and Strategy. Located in Sunbury-on-Thames (Hybrid optional) 40 hours per week (Flexi-time) Main tasks and responsibilities As part of the Research Team, your responsibilities will include the following: Research Conduct research using CFD analyses, modelling and experiment Create CFD models and apply aerodynamic, thermal, and aeroacoustics principles in the design and optimisation of the product performance, for example, its accuracy, wind speed range and behaviour under turbulent conditions Develop aerodynamics, thermal, and aeroacoustics concepts and determine their performance targets and specifications, characterise critical components and assess whether requirements are met Validate concepts and CFD models using the results of experimental data and feedback loop to theoretical predictions Capture the output of research in reports for internal knowledge and external publication Support new product development projects through advising and modelling new mechanical design solutions and interpreting the aerodynamics, thermal, and aeroacoustics performances and effectiveness of prototypes Develop multi-physics modelling capabilities with other research teams (e.g. convected acoustics framework with Acoustics team) Support the development of machine learning capabilities to seamlessly couple multi-physics simulations, including the integration of digital twin technologies Help broaden the company’s intellectual property portfolio (patents) Project Management Project manage and deliver research projects (or sub-projects) led by the Aerodynamics discipline. Provide estimates and progress reports on work breakdown structures, tasks and timelines for Aerodynamics research projects. Provide expert knowledge, guidance, advice and mentoring on aerodynamic matters to other engineers and cross-functional as required. Adhere to the quality control of research output through documentation, validation, review, approval and release of outputs in line with the research development cycle and change control. Skills, Ability and Experience (Essential) PhD in Aerodynamics or Aeronautics specialised in Computational Fluid Dynamics. Significant practical post-graduate experience in academia or the aerospace industry, with fresh experience in CFD modelling Highly competent in commercial and open-source CFD modelling packages Experience in working from theoretical principles to develop computer models Experience in applying RANS and LES turbulence modelling techniques and aerothermal analyses Expertise in aeroacoustics and aerothermal analysis Publisher of high-quality peer-reviewed journals and international conferences Experience using Python or equivalent to derive clear conclusions from large database Ability to demonstrate a creative approach to analytical and problem-solving challenges Self-motivated, comfortable in working independently and able to prioritise Collaborative approach and proven flexibility to work as part of a cross-functional team Excellent communication skills Comfortable working to time constraints to meet agreed deadlines High standards of personal and professional integrity Desirable Specialised in subsonic flow, transitional and separated flow Experience in laminar-turbulent transition models Experience in using commercial (ENGYS, COMSOL) CFD modelling packages Applied knowledge of Linux and cluster computing for high-performance tasks Why work with us? We have curated an extensive benefits and rewards package, including: Life assurance scheme Private health care plan: Sanitas Optional hybrid working pattern of one day per week from home OR 3 additional days holiday per annum (role dependent) 24 days holiday per annum, plus all bank and public holidays Flexi-time for days worked in the office Recruitment referral bonus scheme Eyesight scheme Subsidised gym membership Sponsored professional study support