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[Sponsors] |
Job Record #18278 | |
Title | Postdoctoral Position in CFD & Atmospheric Turbulence |
Category | PostDoc Position |
Employer | University of Pittsburgh |
Location | United States, PA, Pittsburgh |
International | Yes, international applications are welcome |
Closure Date | Sunday, April 30, 2023 |
Description: | |
A postdoctoral researcher position is available immediately in the Mechanical Engineering and Materials Science Department at the University of Pittsburgh. The position is available for one year and can be renewed for an additional year upon satisfactory performance. The postdoctoral scholar is expected to conduct research as part of a National Science Foundation grant to investigate turbulence in long-lived, very stable atmospheric boundary layers, which are commonly observed in polar regions, using direct numerical and large-eddy simulations. In the very stable regime, turbulence manifests itself intermittently in patches. The source of these sporadic turbulence activities and conditions that promote such events remain poorly understood and challenges turbulence parameterizations. The project is expected to produce a better characterization of turbulence and a quantitative classification scheme to account for the global intermittency in long-lived stable boundary layers. The ideal candidate is expected to have a strong background in computational fluid dynamics and turbulence. Experience with flow stability analysis, C/C++ programming and GPU computing using CUDA is desirable. Applicants must have or about to earn a Ph.D. degree in mechanical, aerospace, computational science and engineering, atmospheric sciences or applied mathematics with a strong academic record as evidenced by relevant course work, publications in peer-reviewed journals and/or conference papers. The annual salary for this position is $58,000 plus health benefits and professional travel funds to present research findings at major conferences. Applicants should send a cover letter summarizing their qualifications and research accomplishments, a CV, unofficial transcripts for their undergraduate and graduate studies, and contact information of three references as a single pdf document via email with the subject line “Postdoctoral application” to Dr. Inanc Senocak (senocak@pitt.edu) |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18278 when responding to this ad. | |
Name | Inanc Senocak |
senocak@pitt.edu | |
Email Application | Yes |
URL | https://www.engineering.pitt.edu/people/faculty/inanc-senocak/ |
Record Data: | |
Last Modified | 22:52:32, Friday, January 27, 2023 |
Job Record #18277 | |
Title | PhD Scholarships for Black Students |
Category | PhD Studentship |
Employer | The University of Manchester |
Location | United Kingdom, Manchester |
International | Yes, international applications are welcome |
Closure Date | Monday, February 27, 2023 |
Description: | |
There are excellent PhD opportunities at Manchester University (via the Black Future Engineering PhD Scholarships) in the area of CFD/Experiment/Thermodynamic of Fluid Mechanics and Thermal Engineering Systems. The scholarship is primarily for of students with black heritage (African, Caribbean, Mixed, and Other). If you are interested to be considered for this scholarship please send your CV (PDF) to yasser.mahmoudilarimi@manchester.ac.uk |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18277 when responding to this ad. | |
Name | Yasser Mahmoudi |
yasser.mahmoudilarimi@manchester.ac.uk | |
Email Application | Yes |
Record Data: | |
Last Modified | 17:26:24, Friday, January 27, 2023 |
Job Record #18259 | |
Title | Fully Funded 4-year PhD in CFD |
Category | PhD Studentship |
Employer | Northumbria University |
Location | United Kingdom, Newcastle |
International | Yes, international applications are welcome |
Closure Date | Friday, February 03, 2023 |
Description: | |
The wind energy market is driven by Horizontal Axis Wind Turbines (HAWTs), however, Vertical Axis Wind Turbines (VAWTs) have the potential to outperform them. Although VAWTs are considered to have lower aerodynamic efficiencies, recent studies show that VAWTs, in array configurations, are much better suited for future wind farms by producing significantly more power per square meter. The fatigue issues and material failures, due to cyclic stresses in the earlier VAWTs designs, have been a major problem faced by the wind industry which has prevented unlocking the potential of VAWTs for wind energy conversion. Recent advances in computational modelling have enabled an in-depth understanding of the aerodynamic and fluid-structure interactions of wind turbines. These tools can be used to investigate the applications of new structures and innovative blade designs to overcome most of the fatigue issues for VAWTs. The overall aim of this research is to enhance the integration of numerical and experimental models with real-condition wind farms data and innovative geometries to reveal the potential high performance of VAWTs both individually and in array configurations. As a case study, the proposed method will be used to investigate and optimise the aerodynamics and structural integrity of an innovative VAWT which is designed to withstand strong winds. The co-supervised PhD student at Northumbria University will be involved in computational and experimental modelling and optimisation of wind turbines using an in-house code and wind tunnels. Experimental investigations in the industry will be used to validate the numerical model aerodynamic performance and aeroelastic instabilities predictions. Students with a strong research interest in Renewable Energy are encouraged to apply for the studentship. We are seeking to recruit a highly motivated PhD student with a background in any of the followings: Energy, Mechanical Engineering, Applied Mathematics, Materials Science, Environmental Engineering, Aerodynamics, CFD. Supervisor websites: https://www.northumbria.ac.uk/about-us/our-staff/r/mohammad-rahmati/ https://www.northumbria.ac.uk/about-us/our-staff/d/laurent-dala/ Academic Enquiries This project is supervised by Dr Mohammad Rahmati. For informal queries, please contact mohammad.rahmati@northumbria.ac.uk. For all other enquiries relating to eligibility or application process please use the email form below to contact Admissions. Eligibility Requirements: Academic excellence of the proposed student i.e. 2:1 (or equivalent GPA from non- UK universities [preference for 1st class honours]); or a Masters (preference for Merit or above); or APEL evidence of substantial practitioner achievement. Appropriate IELTS score, if required. Applicants cannot apply for this funding if they are already a PhD holder or if currently engaged in Doctoral study at Northumbria or elsewhere. Home and International students (inc. EU) are welcome to apply. The studentship is available to Home and International (including EU) students and includes a full stipend at UKRI rates (for 2022/23 full-time study this is £17,668 per year) and full tuition fees. Studentships are also available for applicants who wish to study on a part-time basis (0.6 FTE, stipend £10,600 per year and full tuition fees) in combination with work or personal responsibilities. Please note: to be classed as a Home student, candidates must meet the following criteria: Be a UK National (meeting residency requirements), or have settled status, or have pre-settled status (meeting residency requirements), or have indefinite leave to remain or enter. If a candidate does not meet the criteria above, they would be classed as an International student. Applicants will need to be in the UK and fully enrolled before stipend payments can commence, and be aware of the following additional costs that may be incurred, as these are not covered by the studentship. For further details of how to apply, entry requirements and the application form, see: https://www.findaphd.com/phds/project/aerodynamic-design-and-aeroelasticity- analysis-of-vertical-axis-wind-turbine-farms-renu23-ee-mce-rahmati/?p153380 For applications to be considered for an interview, please include a research proposal of approximately 1,000 words and the advert reference (advert reference (RENU23 /EE/MCE/RAHMATI)). Deadline for applications: 3rd February 2023 Start date of the course: 1st October 2023 Northumbria University is committed to creating an inclusive culture where we take pride in, and value, the diversity of our doctoral students. We encourage and welcome applications from all members of the community. The University holds a bronze Athena Swan award in recognition of our commitment to advancing gender equality, we are a Disability Confident Employer, a member of the Race Equality Charter and are participating in the Stonewall Diversity Champion Programme. We also hold the HR Excellence in Research award for implementing the concordat supporting the Career Development of Researchers. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18259 when responding to this ad. | |
Name | MT Rahmati |
mohammad.rahmati@northumbria.ac.uk | |
Email Application | Yes |
Record Data: | |
Last Modified | 15:43:26, Friday, January 27, 2023 |
Job Record #18276 | |
Title | Junior CFD Engineer |
Category | Job in Industry |
Employer | Private Studio |
Location | Spain, Comunidad Valenciana, Valencia |
International | Yes, international applications are welcome |
Closure Date | Saturday, April 01, 2023 |
Description: | |
Location: Valencia, Spain (Remote) We are seeking a Junior CFD Engineer with a passion for simulation and data visualization to join our team in Valencia, Spain. This is a unique opportunity to work in a dynamic and growing studio that is at the forefront of technology in the field of fluid dynamics. Responsibilities: - Utilizing xFoil, OpenFoam, Star-CCM+, and other software tools to conduct CFD simulations; - Applying knowledge of aerodynamics, hydrodynamics, and naval architecture to analyze and interpret simulation results; - Utilizing Python and data visualization tools to present results in a clear and concise manner; - Participating in design optimization projects to improve product performance; - Collaborating to identify business opportunities and support business development efforts. This is a full-time position with a mix of technical and business development responsibilities. The first few months of training will be in Valencia, but the position can be done remotely after that. If you are a highly motivated individual with a passion for fluid dynamics and business development, we encourage you to apply. To apply, please submit your CV and, only if you want, a cover letter outlining your qualifications and experience. We look forward to hearing from you! |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18276 when responding to this ad. | |
Name | Engineer |
giovanni.bailardi@gmail.com | |
Email Application | Yes |
Record Data: | |
Last Modified | 13:45:31, Friday, January 27, 2023 |
Job Record #18275 | |
Title | Postdoc position in CFD and scientific computing |
Category | PostDoc Position |
Employer | Centre for Applicable Mathematics, TIFR |
Location | India, Karnataka, Bangalore |
International | No, only national applications will be considered |
Closure Date | Tuesday, January 31, 2023 |
Description: | |
TIFR-CAM is a research institute funded by the Govt. of India and involved in research on PDE, scientific computing and applied mathematics. There are some postdoc positions available at present. Candidates with background in CFD, finite element methods, numerical methods for PDE, scientific computing, parallel computing, etc. are encouraged to apply. See my website below for details of my research areas. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18275 when responding to this ad. | |
Name | Praveen C |
cpraveen@gmail.com | |
Email Application | Yes |
URL | https://www.math.tifrbng.res.in/career/postdoctoral-fellow-positions |
Address | Tata Institute of Fundamental Research Centre For Applicable Mathematics Post Bag No 6503, GKVK Post Office Sharada Nagar, Chikkabommsandra Bangalore 560065 Karnataka, India |
Record Data: | |
Last Modified | 04:05:08, Friday, January 27, 2023 |
Job Record #18274 | |
Title | Continuum modelling of particulate flows in nature and industry |
Category | PhD Studentship |
Employer | Cardiff University - Applied Mathematics |
Location | United Kingdom, South Glamorgan, Wales, Cardiff |
International | Yes, international applications are welcome |
Closure Date | Friday, February 24, 2023 |
Description: | |
Fully Funded EPSRC DTP PhD Studentship in Applied and Computational Mathematics Project Summary So much of the natural and man-made world is composed of collections of discrete solid grains. However, there is currently no completely satisfactory theory to describe their motion, en masse, in the many complex flow scenarios which are important across industry and geophysics. Despite the challenges, a promising paradigm has been building over the last 20 years. Based around key experimental, mathematical and physical insights, continuum models for both the flow of dry grains and for particles suspended in a background fluid are beginning to mature. In this project, the driving goal will be to develop a unified rheology spanning the many flow regimes that particulate materials can exhibit. Once this model begins to take shape, novel numerical methods will be developed to solve the resultant dynamical equations. This in-house code will then be applied to various test cases inspired by flows in nature, such as debris avalanches and subsea landslides, and in industry, such as hopper flows and drum mixers. The work will be framed and motivated by key open questions such as "Is it useful in modelling to categorise particle flow dynamics into gas-like, liquid- like and solid-like behaviour?", "What is the most appropriate numerical method to solve multi-regime particulate flow equations?" and "How does the presence of liquid water modify the severity of natural hazards and the efficiency of industrial processes?". Research Environment Students undertaking this project will work in a dynamic field of research with many opportunities for innovation and impact. Success in the project will see the student gain ability and confidence in many areas of applied mathematics. In particular, the student will work at the forefront of continuum mechanics, computational fluid dynamics, granular rheology, discrete element modelling, geophysics and engineering. Cardiff’s School of Mathematics is home to a world-leading Applied Mathematics group which has fostered an outstanding postgraduate research environment. The latest Postgraduate Research Experience Survey (PRES) ranks it 3rd in overall satisfaction and 1st (out of 22 in the UK) in professional development. With around 15 full-time staff and PhD students and weekly seminars by international experts, there will be many opportunities for knowledge exchange and guidance throughout the project. The successful candidate will also become member of a vibrant postgraduate research community, which hosts the SIAM-IMA Student Chapter at Cardiff University, formed by the Society for Industrial and Applied Mathematics and supported by the Institute of Mathematics and its Applications. They will be provided with a desk and a computer, and access to state-of-the-art facilities in the School’s purpose-built new home, Abacws, where the School moved in September 2021. Training and Development Opportunities With the funding enabled by this studentship, students will have access to many conferences and workshops outside Cardiff. Of particular relevance in the coming years are the Particles 2023 conference in Milan, the 2024 Gordon Research Conference in Boston and Powders & Grains 2025 in India. These activities will encourage the general intellectual and personal development of the student, leading to many transferrable skills. To expand their mathematical knowledge beyond that offered by their specific project, in addition to research work, in the first two years the student will attend a total of 100 hours of postgraduate lecture courses run by MAGIC (Mathematics Access Grid Instruction and Collaboration), which is jointly organised remotely by 20 UK Universities. Assignments to the MAGIC courses will be assessed by the course lecturers. HOW TO APPLY Applicants should apply through the Cardiff University online application portal (https://www.cardiff.ac.uk/study/postgraduate/research/programmes/programme/math ematics), for a Doctor of Philosophy in Mathematics with an entry point of October 2023. In the research proposal section of your application, please specify the project title and supervisors of this project. There is no requirement to submit a detailed research proposal. In the funding section, please select "I will be applying for advertised funding from EPRSC DTP. ACADEMIC CRITERIA A 1st or upper 2nd class UK Honours degree (or equivalent) or a Master’s degree is required in mathematics or a related subject. ENGLISH LANGUAGE REQUIREMENTS Applicants for whom English is not their first language must demonstrate proficiency by obtaining an IELTS score of at least 6.5 overall, with a minimum of 5.5 in each skills component. Further acceptable qualifications can be found at https://www.cardiff.ac.uk/study/international/english-language- requirements/postgraduate SUPPORTING DOCUMENTS · Curriculum vitae · A personal statement · Two completed references · Degree certificates and transcripts · Proof of English language (if applicable) ELLIGIBILITY EPSRC DTP studentships are available to home and international students. Up to 30% of our cohort can comprise international students, once the limit has been reached we are unable to make offers to international students. International students will not be charged the fee difference between the UK and international rate. Applicants should satisfy the UKRI eligibility requirements. Cardiff University is committed to support students from a range of backgrounds and circumstances. Where needed, we will work with you to take into consideration reasonable project adaptations (for example to support caring responsibilities, disabilities, other significant personal circumstances) as well as flexible working and part‐time study requests, to enable greater access to a PhD. All our supervisors support us with this aim, so please feel comfortable in discussing further with the listed PhD project supervisor to see what is feasible. Cardiff University is committed to supporting and promoting equality and diversity and to creating an inclusive environment for all. We welcome applications from all members of the global community irrespective of age, disability, sex, gender identity, gender reassignment, marital or civil partnership status, pregnancy or maternity, race, religion or belief and sexual orientation. We welcome applications for both full and part-time study and from candidates with non-traditional academic backgrounds. For further information about modes of study, please contact us. ASSESSMENT Applicants are reminded to submit all relevant documents (transcripts, supporting statement, etc) by the deadline. Due to the volume of applications received, incomplete applications will not be considered. Shortlisted applicants will be invited to interview early in March 2023. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18274 when responding to this ad. | |
Name | Dr Thomas Barker |
barkert1@cardiff.ac.uk | |
Email Application | Yes |
URL | https://www.findaphd.com/phds/project/continuum-modelling-of-particulate-flows-in-nature-and-industry/?p154393 |
Record Data: | |
Last Modified | 09:59:10, Wednesday, January 25, 2023 |
Job Record #18186 | |
Title | Pollutant and contrails dispersion from aircraft engines |
Category | PhD Studentship |
Employer | Barcelona Supercomputing Center |
Location | Spain, Barcelona |
International | Yes, international applications are welcome |
Closure Date | Tuesday, February 28, 2023 |
Description: | |
The current need for decarbonization of the aeronautical sector has impelled intense research in combustion and aerodynamics fields to reduce fuel consumption (decrease in greenhouse emissions) and pollutant emissions like soot and NOx, together with desirable complementary objectives related to noise reduction. In line with this, the local air quality in the near airport region is a matter of increasing concern due to its effects on human health and the well-being of the inhabitants of such zones. Consequently, new engine architectures based on the hybridization of the engine through the combination of conventional fuels and an increasing presence of Sustainable Aviation Fuels (SAF) in conjunction with electrification of the engine are the tendency to achieve the objectives targeted by the policymakers. Within this context, the candidate will develop a research activity which will comprise the investigation of the dispersion of pollutants in the regions near the airport during taxi, takeoff and landing stages for different engine architectures through numerical simulations. Another objective of this investigation will be to understand and predict contrails caused by the water vapour condensation contained in the airplane exhaust gases when issued to the atmosphere. Research activities will be carried out in the framework of the EU projects INDIGO and EXCELLERAT 2, in which BSC participates. The applicant will join the Propulsion Technologies Group (PTG), a research group from the Computer Applications in Science and Engineering (CASE) Department at the Barcelona Supercomputing Center. As part of the PTG, the applicant will form a multidisciplinary team of researchers with a strong background in Computational Fluid Dynamics (CFD) applied to high-fidelity simulations to develop clean propulsion and power generation systems. The PTG is actively involved in several European research-oriented and industrial projects for which results are disseminated in highly-ranked scientific journals and conferences. The applicant is expected to work on implementing the code to model contrails and will acquire the necessary ability to perform complex simulations in the frame of Computational Fluid Dynamics by applying High-Performance Computing (HPC) techniques. ----------------------- Key duties - Conducting simulation of pollutant dispersion from aircraft engines. - Developing reduced-order models for emissions. - Interact with the different partners of the projects to carry our collaborative research. - Contribute to scientific publications and reporting to different National and EU projects the researcher will be involved in. ----------------------- Requirements - Education The candidate should hold a master degree in Mechanical or Aeronautical engineering. - Essential knowledge and professional experience o Knowledge of fluid mechanics and thermodynamics are expected. o General knowledge on computer science and programming languages such as Fortran, Python, C, and C++ will be considered an asset. - Additional knowledge and professional experience Fluency in English is essential, Spanish is welcome. - Competences o Strong analytical skills. o Ability to work independently and within a team. o Good communication and team-work skills to work in a multidisciplinary team. - Conditions o The position will be located at BSC within the CASE Department. o We offer a full-time contract, a good working environment, a highly stimulating environment with state-of-the-art infrastructure, flexible working hours, extensive training plan, tickets restaurant, private health insurance, fully support to the relocation procedures. o Duration: Open-ended contract due to technical and scientific activities linked to the project and budget duration. o Salary: we offer a competitive salary commensurate with the qualifications and experience of the candidate and according to the cost of living in Barcelona. o Starting date: 01/2/2023 - Applications procedure and process o All applications must be made through BSC website (applications through e-mail will not be considered): https://www.bsc.es/es/join-us/job-opportunities/45322caseptr1 o All applications must contain: * A full CV in English including contact details * A Cover Letter with a statement of interest in English, including two contacts for further references. - Deadline The vacancy will remain open until suitable candidate has been hired. Applications will be regularly reviewed and potential candidates will be contacted. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18186 when responding to this ad. | |
Name | Eduardo Pérez |
eduardo.perez@bsc.es | |
Email Application | No |
URL | https://www.bsc.es/es/join-us/job-opportunities/45322caseptr1 |
Record Data: | |
Last Modified | 11:40:57, Tuesday, January 24, 2023 |
Job Record #18273 | |
Title | Post-doc: high fidelity simulations of turbulent flows |
Category | PostDoc Position |
Employer | CNRS - LMFL |
Location | France, Lille |
International | Yes, international applications are welcome |
Closure Date | Wednesday, March 15, 2023 |
Description: | |
The post-doctoral researcher will participate in the ERC Advanced Grant research project NoStaHo which is aimed at an extensively transformative fundamental understanding and theory of non-stationary and/or non homogeneous turbulence with the identification of universality classes depending on types of non-homogeneity/non-stationarity and a consequent road map for turbulent flow prediction methods. The post-doct will participate in the setting up of the numerical side of the of the project by contributing to Direct Numerical Simulations and various ways to analyse the data obtained for a variety of turbulent flows including various types of turbulent wakes, jets and boundary layers. Among the many aspects of the flows to concentrate on, are coherent structures and their impacts on turbulence energy exchanges, turbulence cascades and dissipation; impacts of these energy exchanges/transfers through space and across different size eddies. The post-doc will be a member of the turbulence group of the LMFL and of the NoStaHo research team (including 2 post-docs and 4 PhDs). She/he will be supported by the exerts of the group. The numerical works will benefit from the national supercomputing facilities. The candidate will have a PhD in computational fluid dynamics, with experience in the field of turbulence. This position will be administred by the CNRS and is initially for 2 years with a possibility of extension depending on performance. Please contact Professor C. Vassilicos (john-christos.vassilicos@centralelille.fr) for more information The application must be sent through the CNRS job portal at https://emploi.cnrs.fr/Offres/CDD/UMR9014-JEALAV0-008/Default.aspx?lang=EN |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18273 when responding to this ad. | |
Name | J. Christos Vassilicos |
john-christos.vassilicos@centralelille.fr | |
Email Application | Yes |
Phone | +33 (0)3 20 33 71 51 |
URL | https://lmfl.cnrs.fr/en/home/ |
Address | LMFL - CNRS UMR 9014 Av Paul Langevin Cité Scientifique F-59655 Villeneuve d'Ascq, France |
Record Data: | |
Last Modified | 13:27:27, Monday, January 23, 2023 |
Job Record #18272 | |
Title | Senior project engineer-CFD development |
Category | Job in Academia |
Employer | Indian Institute of Technology Delhi |
Location | India, Delhi, New Delhi |
International | No, only national applications will be considered |
Closure Date | Wednesday, March 15, 2023 |
Description: | |
Applications are invited for Senior Project Engineer position for a CFD development project at IIT Delhi. Description of the work: The project involves development of user-interface design and performance enhancement of an existing scientific computing software. The development will involve implementation of simple UI designs using Qt/widgets/ImGUI/Javascript, testing the software and writing maintainable code. The project is a sponsored research project that involves working with the Ministry of Shipping, Ports and Waterways. Required Qualifications: M. Tech. 1st class or equivalent in the appropriate discipline OR B.Tech. 1st Class or equivalent with 3 years experience. The prospective candidate should have a Masters/B. Tech degree from a renowned institution in Computer Science, IT, Electronics, Mechanical, Aerospace, Chemical or Civil engineering with knowledge in scientific computing and basic understand of physics. The prospective candidate should have sound mathematical skills and very good programming skills in developing user interfaces, object oriented design and high performance computing. The candidate should be well versed in C++ and additionally in python, javascript or any other modern programming languages. The candidate needs to be resourceful and motivated to build useful industry friendly software. Desired qualifications: In addition to the above it will be desirable to have knowledge of computational fluid dynamics, computational geometry and scientific visualisation. It will be preferable to have knowledge on visualisation library such as VTK and computer graphics in general. Salary and duration: Salary will commensurate with IIT Delhi norms. For details see: https://ird.iitd.ac.in/sites/default/files/prn_files/Annexure-Ia.pdf The initial duration of the post will be for 1 year and can be extended up to 3 years, and further possibilities can be discussed. Project Investigators: Asst. Prof. Prapanch Nair, Prof. Amitabh Bhattacharya and Prof. Anupam Dewan. Interested candidates may please send your CV to pnair@am.iitd.ac.in |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18272 when responding to this ad. | |
Name | Prapanch Nair |
pnair@am.iitd.ac.in | |
Email Application | Yes |
URL | https://web.iitd.ac.in/~pnair/ |
Record Data: | |
Last Modified | 11:25:41, Monday, January 23, 2023 |
Job Record #18271 | |
Title | Principal project engineer-CFD development |
Category | Job in Academia |
Employer | Indian Institute of Technology Delhi |
Location | India, Delhi, New Delhi |
International | No, only national applications will be considered |
Closure Date | Wednesday, March 15, 2023 |
Description: | |
Applications are invited for Principal Project Engineer position for a CFD development project at IIT Delhi. Description of the work: The project involves further development of an existing in-house solver that uses non-traditional CFD techniques. The development will involve implementation of physics capabilities such as turbulence modelling, hydrodynamic corrections, high performance computing using performance portable libraries, implementing efficient computational geometry algorithms. The project is a sponsored research project that involves working with the Ministry of Shipping, Ports and Waterways. Required Qualifications: The prospective candidate should have a PhD from a renowned institution in Mechanical, Aerospace, Chemical or Civil engineering with research knowledge in the areas of turbulent flow, and fluid dynamics. The prospective candidate should have sound mathematical and fluid dynamics foundations. The candidate should be well-versed in scientific computing and have developed solvers for research, visualised and analysed simulations. Desired qualifications: In addition to the above it will be desirable to have working knowledge of modern C++, knowledge in computational geometry, experience working with OpenMP, MPI and/or CUDA, and visualisation experience. Salary and duration: Salary will commensurate with IIT Delhi norms. For details see: https://ird.iitd.ac.in/sites/default/files/prn_files/Annexure-Ia.pdf The initial duration of the post will be for 1 year and can be extended up to 3 years, and further possibilities can be discussed. Project Investigators: Asst. Prof. Prapanch Nair, Prof. Amitabh Bhattacharya and Prof. Anupam Dewan. Interested candidates may please send your CV to pnair@am.iitd.ac.in |
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Contact Information: | |
Please mention the CFD Jobs Database, record #18271 when responding to this ad. | |
Name | Prapanch Nair |
pnair@am.iitd.ac.in | |
Email Application | Yes |
URL | https://web.iitd.ac.in/~pnair/ |
Record Data: | |
Last Modified | 11:16:43, Monday, January 23, 2023 |