- Characterize the impact of cavitation - vortex - turbulence interaction on cavitation (DNS with the parallel, hierarchic code PHASTA) on a scale of tens of bubbles
- Quantify the impact of related physical mechanisms on the concentration and diffusion rate of OH radicals with DNS
- Quantify interactions of diffusion and reactions of OH radicals considering the cavitation - vortex - turbulence interaction for different hydraulic conditions
- Completed university studies (Master/Diploma) in the field of process engineering, chemical engineering, mechanical engineering or comparable fields
- Knowledge in cavitation, thermodynamics, hydrodynamics, phase change processes
- Willingness to work on numerical and experimental problems
- Very good team work and communication skills
- Very good English language skills (written and spoken)
- A vibrant research community in an open, diverse and international work environment
- Scientific excellence and extensive professional networking opportunities
- A structured PhD program with a comprehensive range of continuing education and networking opportunities - more information about the PhD program at the HZDR can be found
- Salary and social benefits in accordance with the collective agreement for the public sector (TVöD-Bund) including 30 days of paid holiday leave, company pension scheme (VBL)
- We support a good work-life balance with the possibility of part-time employment, mobile working and flexible working hours
- Numerous company health management offerings
- Employee discounts with well-known providers via the platform Corporate Benefits
- An employer subsidy for the "Deutschland-Ticket Jobticket"
PhD Student - Dresden, Deutschland - Helmholtz-Zentrum Dresden-Rossendorf (HZDR)
Beschreibung
With cutting-edge research in the fields of ENERGY, HEALTH and MATTER, around 1,500 employees from more than 70 nations at Helmholtz-Zentrum Dresden-Rossendorf (HZDR) are committed to mastering the great challenges facing society today.
The Institute of Fluid Dynamics is conducting basic and applied research in the fields of thermo-fluid dynamics and magnetohydrodynamics in order to improve the sustainability, the energy efficiency and the safety of industrial processes.
The Group Thermal energy technology is looking for a PhD Student (f/m/d) EU Horizon MSCA- Doctorate Network CaviPRO: Modelling of diffusion and reactions of hydroxyl radicals generated by cavity collapse.
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We look forward to receiving your application documents (including cover letter, CV, diplomas/transcripts, etc.), which you can submit via our online-application-system.
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