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[Sponsors] |
Job Record #19538 | |
Title | Post-Doctoral Research Associate |
Category | PostDoc Position |
Employer | The University of Texas at San Antonio (UTSA) |
Location | United States, Texas, San Antonio |
International | No, only national applications will be considered |
Closure Date | Thursday, May 01, 2025 |
Description: | |
The Computational Turbulence and Visualization Lab (CTV Lab) at The University of Texas at San Antonio (UTSA) has an immediate opening for a Post-Doctoral Research Associate. The position (code: DNS) is sought in the area of numerical predictions of turbulent high-speed boundary layer problems in supersonic/hypersonic flow regimes and complex geometries. The employed numerical approach will be mostly Direct Numerical Simulation (DNS); however, Large-Eddy Simulation (LES) is also available in the in-house flow solver. We are looking for highly motivated candidates with strong HPC skills (MPI Fortran 90/95, C, C++, CUDA Python), turbulent boundary layer theory, Lagrangian Coherent Structures (LCS), and user experience on CPU and GPU supercomputers and clusters. Evidence of productive academic and publication records, excellent verbal and written English skills, and the ability to work both independently and as part of a group of researchers with diverse academic backgrounds are mandatory. Current and funded projects in the research group involve wall-curvature effects on high-speed flows, boundary layer detachment due to streamwise and streamline pressure gradients, and high-speed crossflow jets. QUALIFICATIONS Required qualifications: applicants must have a Ph.D. in Aerospace, Mechanical Engineering, Computer Science, or a related field, to be awarded prior to starting the position. The candidates should have a strong background in the following areas: finite element/volume analysis, turbulence statistics, coherent structures, scientific visualization, and programming. Furthermore, oral communication and written skills are essential as part of the dissemination purposes (publication and oral presentations). Responsibilities for the position include computational fluid dynamics analysis and postprocessing activities, manuscript writing for publications in scientific journals and for grant proposals, oral presentations during group meetings. Additionally, there may be lab management responsibilities, including supervision of undergraduate and/or graduate students. The position requires attendance at conferences, portfolios, and seminars. It is expected that the post-doctoral researcher will collaborate effectively with colleagues in the high-speed flow and scientific visualization community. Position duration: The initial appointment will be for 1 year with the possibility of being re-appointed for additional years based on satisfactory performance and availability of funding. Salary and fringe benefits: it is negotiable depending on prior years of post-doctoral experience. The University of Texas at San Antonio (UTSA) offers an excellent benefits package for its employees. For more information on the available benefits for full-time employees, please review the Employee Benefits at UTSA. HOW TO APPLY: To apply for this position, please ATTACH (i) a 1-page cover letter stating your research interests and career goals, (ii) a detailed CV, and (iii) contact information for three references and email to Prof. Guillermo Araya at juan.araya@utsa.edu quoting “DNS Post-doc position” in the email subject. Incomplete applications will not be reviewed. Supercomputing access requires U.S. citizenship or if you are not a U.S. citizen but have lived in the U.S. for 3 of the last 5 years. For further information, please visit the Computational Turbulence and Visualization Lab (https://ceid.utsa.edu/garaya/) or contact Prof. Araya at juan.araya@utsa.edu |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19538 when responding to this ad. | |
Name | Recruitment Manager |
juan.araya@utsa.edu | |
Email Application | Yes |
URL | https://ceid.utsa.edu/garaya/ |
Record Data: | |
Last Modified | 23:18:07, Thursday, January 16, 2025 |
Job Record #19537 | |
Title | cfd & Urban Turbulence |
Category | PhD Studentship |
Employer | Portland State University |
Location | United States, OR, Portland |
International | Yes, international applications are welcome |
Closure Date | Sunday, June 01, 2025 |
Description: | |
Professor:Dr. Xiaowei Luke Zhu Email:xz3@pdx.edu Website:https://www.pdx.edu/profile/xiaowei-luke-zhu About Portland State University (PSU): Established in 1946, Portland State University (PSU) is a beacon of educational excellence in Portland, Oregon, USA. As the largest and most culturally diverse institution in the Oregon university system, PSU is uniquely situated in an urban center, offering a rich, vibrant academic experience. Currently, the university boasts a dynamic student body of approximately 27,000, including over 2,000 international students. In the prestigious 2020-2021 QS World University Rankings, PSU is ranked 110th in the United States, reflecting its commitment to academic excellence and innovation. About Portland, Oregon: Known as the "City of Roses," Portland is the most populous city in Oregon and the 19th most populous metropolitan area in the United States. It is the second largest city in the Pacific Northwest, following Seattle. Renowned for its pleasant climate and high per capita income, Portland has consistently been rated as one of the most livable cities in the United States. Faculty Profile - Dr. Zhu: Xiaowei "Luke" Zhu serves as an Assistant Professor in the Department of Mechanical and Materials Engineering at Portland State University. He earned his Ph.D. in Mechanical Engineering from The University of Texas at Dallas. Prior to his appointment at PSU starting, Dr. Zhu worked as a postdoctoral fellowship at both Johns Hopkins University and Princeton University. His research primarily focuses on computational fluid dynamics, particularly in turbulence modeling, urban turbulence, and wind energy. PhD Recruitment - Research on Urban Environmental Turbulence: We are excited to announce the recruitment of a PhD candidate to explore the application of turbulence in urban environments. This includes atmospheric turbulence, heat islands, and pollutant diffusion. The Urban Environment Lab at PSU utilizes advanced numerical simulations to tackle the complexities of modern urban environments. Our research delves into fluid dynamics, heat transfer, and air pollution within cities, aiming to enhance our understanding of human- environment interactions and contribute to the development of sustainable urban designs. Admissions Requirements: (1)Master degree; (2)Engilish Proficiency proof (TOEFL or IELTS) TOEFL: IBT minimum overall score of 80 with minimum subscores of 18 in reading and writing. IELTS: 6.5 overall scores with minimum sub-scores of 6.5 in reading and writing (3)Ideal candidates should possess a passion for scientific research, a strong drive, and enthusiasm for problem-solving. We welcome applicants from related science and engineering fields, particularly those with a background in mechanical engineering, physics, thermal energy/fluids, atmospheric sciences, or environmental studies. Priority will be given to candidates with expertise in fluid mechanics, heat transfer, and programming. Interested individuals should submit (1) cover letter, (2) CV, (3) Transcripts for both undergraduate and master study, (4) TOEFL or IELTS, to my email address. For fully consideration, please make sure the 4 documents are attached. Recruitment Period: Enrollment is open for Fall 2025. We offer a comprehensive scholarship package, including tuition assistance and a living stipend. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19537 when responding to this ad. | |
Name | Luke Zhu |
xz3@pdx.edu | |
Email Application | Yes |
Record Data: | |
Last Modified | 20:50:10, Thursday, January 16, 2025 |
Job Record #19536 | |
Title | Project Scientist/ Research associate in mass and Heat Transfer |
Category | Job in Industry |
Employer | RESCONS SOLUTIONS PVT. LTD |
Location | India, Karnataka, Bangalore |
International | No, only national applications will be considered |
Closure Date | Friday, February 07, 2025 |
Description: | |
About the Role : Are you passionate about pushing the boundaries of science and engineering? We are seeking a visionary Project Scientist to lead groundbreaking research in mass and heat transfer computational modelling in particularly related to the reduction of iron ore using Hydrogen/ Syngas. This role is a unique opportunity to: ⤷ Develop advanced heat and mass transfer codes for metallurgical/chemical processes involving packed beds. ⤷ Mentor and guide the next generation of postgraduate students. Who We're Looking For : ⤷ A Ph.D. holder in Chemical, Metallurgy, Mechanical, Aerospace, Civil, Physics, or related fields. ⤷ Proficiency in programming languages such as C/C++ and Python. ⤷ Expertise in modelling reaction kinetics, mass and heat transfer. ⤷ Commitment to a minimum of 9 months, with a passion for long-term contribution. Desirable Skills : ⤷ OpenFoam, LIGGGHTS, ANSYS experience ⤷ Modelling of multiphase flows. ⤷ A curious spirit, eager to explore and publish. What We Offer : ⤷ A competitive monthly salary commensurate with experience. ⤷ An initial 1-year contract with the possibility of renewal based on performance. ⤷ A vibrant, collaborative environment at India’s premier research institution. Take The Next Step Embark on a journey of discovery and innovation. Submit your CV, select publications (if any), and two references to govindg_at_iisc_dot_ac_dot_in by Feb 7, 2025. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19536 when responding to this ad. | |
Name | Prof Govind Gupta |
govindg@iisc.ac.in | |
Email Application | Yes |
Record Data: | |
Last Modified | 16:01:58, Thursday, January 16, 2025 |
Job Record #19535 | |
Title | 3 CFD, AI and related PhD Studentships |
Category | PhD Studentship |
Employer | Dept Engineering, University of Exeter |
Location | United Kingdom, Devon, Exeter |
International | Yes, international applications are welcome |
Closure Date | Monday, February 10, 2025 |
Description: | |
The University of Exeter is funding a number of Doctoral Landscape Award studentships across the range of the EPSRC Remit; and this includes 3 studentships in CFD and related areas. As follows; Project 1 Use of Machine Learning techniques to Accelerate CFD (Tabor/Chu) - the project will look at ML-enabled turbulence models, solution techniques, and GPU computing. Project 2 Integrated multi-agent LLM and CFD as Bi-level optimizer for Thermohydraulic Applications (Chu/Tabor) - using Large Language Models (LLMs) to propose designs for thermofluid systems which will then be evaluated using CFD (OpenFOAM) Project 3 Quantum uncertainty quantification-QUQ (Rappel/Tabor) will investigate Quantum Computing as a route to Uncertainty Quantification. To apply to any specific project, follow the link at the bottom of the pdf. The full list of Engineering projects is also available. UK students particularly encouraged to apply - these are open to international students as well but we are restricted as to how many can be awarded (no more than 30% can be international unfortunately). |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19535 when responding to this ad. | |
Name | Dr Gavin R Tabor |
g.r.tabor@ex.ac.uk | |
Email Application | No |
Phone | 07804147738 |
URL | https://www.exeter.ac.uk/study/funding/award/?id=5477 |
Record Data: | |
Last Modified | 14:28:38, Thursday, January 16, 2025 |
Job Record #19313 | |
Title | Computation of jet noise with One Way approach |
Category | PostDoc Position |
Employer | ONERA, DMPE |
Location | France, Toulouse |
International | Yes, international applications are welcome |
Closure Date | Monday, March 31, 2025 |
Description: | |
Skills required: Applied mathematics, numerical analysis, fluid mechanics, flow instability, aeroacoustics, Fortran parallel programming Nationality: Due to access restrictions, this position is only open for European Union citizens. Job description: Numerical computation of long-range wave propagation is often expensive since the equations are basically elliptic and they must be solved in the whole space domain. Therefore, considerable efforts have been devoted for several decades to the transformation of the propagation equations into a parabolic system, which can be integrated by space marching. In particular, the One Way equations are obtained by algebraic factorization of the wave operator. They are used for example to describe the propagation of acoustic, seismic or electromagnetic waves. Recently, a modified approach combining operator decomposition in the wave direction and numerical discretization in the transverse direction has been proposed by Towne & Colonius (2015). One of the key advantages of this approach is that it does no longer require tedious algebraic factorization and it can therefore be applied to more complex systems of equations, such as the linearized Euler or Navier-Stokes equations to describe the propagation of waves in inhomogeneous flows. Two doctoral works have already been carried out at ONERA Toulouse to improve the numerical One Way approach and a Fortran code has been developed. The purpose of the post-doctoral training will be to continue to improve the code capability and to apply it to a practical problem such as the low-frequency sound radiation of jets due to the instability of the jet shear layer. First, the growth of fluctuations inside the jet shear layer will be computed by One Way method and compared with the results of parabolized stability equations (PSE). Then the sound radiation will be deduced and compared with LES and experimental data, first for a circular single-stream jet, then for a coaxial double-stream jet. The test cases will be defined in coordination with Airbus Aircraft and with Pprime Institute (Poitiers, France), which will also provide experimental data, in the frame of a collaborative research program funded by the French Civil Aviation Authority. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19313 when responding to this ad. | |
Name | BRAZIER Jean-Philippe |
Jean-Philippe.Brazier@onera.fr | |
Email Application | Yes |
Phone | (33) 5 62 25 28 25 |
URL | https://www.onera.fr |
Address | ONERA DMPE 2 avenue Marc Pélegrin B.P. 74025 31055 Toulouse Cedex 4 France |
Record Data: | |
Last Modified | 09:16:20, Thursday, January 16, 2025 |
Job Record #19534 | |
Title | PhD scholarships |
Category | PhD Studentship |
Employer | Curtin University |
Location | Australia, WA, Bentley |
International | Yes, international applications are welcome |
Closure Date | Monday, December 01, 2025 |
Description: | |
Number: 2; Open: Accept at any time Living stipend ($35,000 per year): covered for three years; Tuition fee ($38,000 per year): covered for four years. Fields of study: wave energy converters, control systems and fluid-structure interaction. Local and international students Full-time enrolment Strong background in wave energy converters or/and fluid-structure interaction or/and systems and control Solid background in mathematics (theories in both ordinary and partial differential equations) Supervisor: Prof Khac Duc Do Application: https://scholarships.curtin.edu.au/Scholarship/?id=7396 |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19534 when responding to this ad. | |
Name | Prof Khac Duc Do |
duc@curtin.edu.au | |
Email Application | Yes |
URL | https://scholarships.curtin.edu.au/Scholarship/?id=7396 |
Address | School of Civil and Mechanical Engineering Curtin University Bentley, WA 6102 Australia |
Record Data: | |
Last Modified | 13:23:06, Wednesday, January 15, 2025 |
Job Record #19533 | |
Title | Postdoctoral Researcher Position in Reactive Transport Modeling |
Category | Job in Academia |
Employer | Department of Environmental Science and Policy, UC Davis |
Location | United States, California, Davis |
International | Yes, international applications are welcome |
Closure Date | Friday, February 14, 2025 |
Description: | |
We are seeking a postdoctoral researcher to join our NSF-funded project, Effects of environmental change on microbial self-organized patterns in Antarctic Lakes. The postdoc researcher will lead the effort to construct numerical models to investigate mechanisms forming the morphology and spatial patterns of benthic microbial communities (modern “stromatolites”) in Antarctic lakes. The quantitative framework will enhance our interpretation of ancient stromatolites in the geological record and improve our understanding of Earth’s evolutionary and environmental history. Qualifications: An ideal candidate will have expertise in at least one of following areas: reactive transport modeling, computational fluid dynamics, or theory of spatial pattern formation. The successful candidate will be part of the research groups led by Dr. Xiaoli Dong (Department of Environmental Science and Policy, UC Davis) and Dr. Dawn Sumner (Department of Earth and Planetary Science, UC Davis). Start Date: Negotiable, preferably by Spring or Summer of 2025. Duration and Salary: The initial appointment is for one year, with the possibility of extension for an additional year based on satisfactory performance. The annual salary ranges from $64,480 to $77,327, depending on the candidate’s experience. For more details on salary scales, please refer to the UCOP salary guidelines: https://www.ucop.edu/academic-personnel-programs/_files/2023-24/oct-2023-acad-salary-scales/t23.pdf Responsibilities: Under the guidance of the PIs, the postdoctoral researcher will develop and analyze reactive transport models to explore the mechanism driving the morphology and spatial patterns of benthic microbial communities in Antarctic lakes. How to apply: Please email a cover letter describing your background and interests in the position, a CV, and contact information for three references to Dr. Xiaoli Dong at xldong@ucdavis.edu. Review of applications will begin on Feb 14, 2025, and the position will remain open until filled. Diversity and Inclusion: UC Davis is committed to fostering a diverse and inclusive work environment. All applicants are protected under Federal law from discrimination based on race, color, religion, sex, national origin, disability, age, and genetics. UC Davis provides reasonable accommodations to applicants with disabilities. Applicants requiring a reasonable accommodation for any part of the application and hiring process should contact the Office of Equity by email at dmshelp@ucdavis.edu. Determinations as to granting reasonable accommodations for any applicant will be made on a case-by-case basis. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19533 when responding to this ad. | |
Name | Xiaoli Dong |
xldong@ucdavis.edu | |
Email Application | Yes |
URL | https://xdong05.github.io |
Address | xldong@ucdavis.edu |
Record Data: | |
Last Modified | 02:27:39, Wednesday, January 15, 2025 |
Job Record #19532 | |
Title | Postdoc / Ph.D. Position in Data-Driven Modeling of Turbulence |
Category | Job in Academia |
Employer | Institute of Aerospace Thermodynamics, University of Stuttgart |
Location | Germany, Baden-Württemberg, Stuttgart |
International | Yes, international applications are welcome |
Closure Date | Saturday, February 15, 2025 |
Description: | |
The “Data-Driven Fluid Dynamics” group (ITLR, Faculty of Aerospace Engineering and Geodesy, University of Stuttgart), led by Prof. Heng Xiao, invites applications for a full-time research position as a Postdoctoral Researcher or Ph.D. Student (EG 13 TV-L). The "Data-Driven Fluid Dynamics" group operates at the forefront of fluid dynamics, data science, and high-performance computing. Our mission is to develop cutting-edge, data-driven methods to address technically demanding and socially impactful challenges in computational fluid dynamics. We leverage machine learning and data assimilation to enhance understanding and improve predictions of multi-scale physical systems in fluid flows. Examples include aerodynamic turbulent flows, laminar-turbulent transitions, and granular and particle-laden flows. Further details about our research can be found on our website (https://www.hengx.org/blog). We are seeking a motivated postdoctoral researcher or Ph.D. student to contribute to a DFG-funded (German Research Foundation) project focused on developing coupled data-driven turbulence and heat-flux models. This research has potential applications in film cooling for high-pressure turbines. The project is a collaborative effort between Prof. Heng Xiao (University of Stuttgart) and Prof. Solkeun Jee (Gwangju Institute of Science & Technology, South Korea). The position is initially limited to three years, with the possibility of renewal for up to six years, subject to mutual agreement and in accordance with university regulations. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19532 when responding to this ad. | |
Name | Prof. Heng Xiao |
heng.xiao@simtech.uni-stuttgart.de | |
Email Application | Yes |
URL | https://www.hengx.org/post/researcher-recruitment |
Address | Universitätsstraße 32, 70569 Stuttgart, Germany |
Record Data: | |
Last Modified | 15:48:09, Sunday, January 12, 2025 |
Job Record #19531 | |
Title | Transport via ratchet of airborne particles under microgravity |
Category | Internship |
Employer | Avignon University (EMMAH) / Lyon 1 University (LMFA) |
Location | France, Avignon |
International | Yes, international applications are welcome |
Closure Date | Thursday, May 01, 2025 |
Description: | |
The sorting of particles in a fluid is crucial in various fields, and the ratchet effect offers a promising alternative to microfiltration, particularly in microgravity. This phenomenon is based on the selective transport of particles via a periodic flow in microchannels. The aim of the internship is to design an experimental device to demonstrate this effect, by analyzing numerical simulations of realistic 2D particle trajectories in quasi-static flow. The numerical calculations, performed with FreeFEM++ and continuation tools, will determine the parameters leading to the ratchet effect and produce a bifurcation diagram to assist design. More details here (http://lmfa.ec-lyon.fr/spip.php?article2561) |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19531 when responding to this ad. | |
Name | Pierre Trontin |
pierre.trontin@univ-lyon1.fr | |
Email Application | Yes |
URL | http://lmfa.ec-lyon.fr/spip.php?article2561 |
Record Data: | |
Last Modified | 11:24:01, Friday, January 10, 2025 |
Job Record #19509 | |
Title | CFD Development Engineer |
Category | Job in Industry |
Employer | CHAM, Wimbledon, London, UK |
Location | United Kingdom, London, Wimbledon |
International | No, only national applications will be considered |
Closure Date | * None * |
Description: | |
Position Description CHAM is seeking a Computational-Fluid-Dynamics (CFD) Engineer to be based at its Wimbledon office, with the remit to contribute to all technical areas of the business, as follows: 1. Contribute to software-development activities. 2. Assist with technical-support services by investigating, finding and reporting on solutions to problems raised by Clients. 3. Execute CFD consultancy contracts with Client interaction. 4. Contribute to product marketing by technical writing for Newsletters and other publications and forums. 5. Participate in technical sales by creating Sales demonstrations for prospective Clients. The main task is to assist our Software Development Team to develop, implement, test and document new features being added to PHOENICS, our general-purpose CFD Code; and other CHAM software products. The successful candidate will also provide assistance to CHAM’s Technical Support Team, on an ad hoc basis, by investigating, finding and reporting on solutions to problems raised by CHAM’s customers. Requirements: * PhD in Computational Science; Engineering; Mathematics, Physics or similar fields which include fluid dynamics and heat transfer. * Knowledge of CFD, fluid dynamics, heat transfer, thermodynamics, algorithmic software development, parallel computing and numerical methods. * Experience in the use of CFD and CAD software, and MS office (Excel, Word, and PowerPoint). * Experience in software development with proficiency in programming languages such as FORTRAN, C, C++, C#, etc. * Some experience in one or more of the following would be a distinct advantage: algorithms, cut-cell methods, immersed boundary methods, octree meshing, adaptive mesh refinement, solvers. * Excellent oral and written communication skills. * Excellent analytical and problem-solving skills, with the ability to perform several tasks simultaneously. * In addition to the above, applicants should be a team player with strong interpersonal skills. * The right to live and work in the UK. CHAM offers a competitive salary, which is commensurate with experience, and a benefits package. Applicants are invited to send a current CV and cover letter outlining qualifications for the position to HR@cham.co.uk with the subject heading “CFD Engineer Application – (Your Name)”. CHAM accepts direct applications only and does not process submissions via Agencies. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19509 when responding to this ad. | |
Name | Human Resources |
HR@cham.co.uk | |
Email Application | Yes |
URL | https://www.cham.co.uk/ |
Address | Concentration, Heat and Momentum Limited (CHAM), Bakery House, 40 High Street, Wimbledon Village, London SW19 5AU |
Record Data: | |
Last Modified | 16:36:46, Thursday, January 09, 2025 |