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[Sponsors] |
Job Record #19365 | |
Title | PhD - Research Scholar Position area of Electronic Cooling |
Category | Job in Academia |
Employer | SRM Institute of Science and Technology |
Location | India, TAMIL NADU, CHENNAI |
International | Yes, international applications are welcome |
Closure Date | Thursday, October 31, 2024 |
Description: | |
Application inviting for 2025 sessions PhD Research Scholar Position in Electronic Cooling Institution: Center of Excellence for Electronic Cooling and CFD Sim Lab Department: College of Engineering and Technology (CET) Location: SRM Institute of Science and Technology, Kattankulathur, Tamil Nadu, India Position Overview: We are seeking a highly motivated PhD Research Scholar to join our cutting-edge research team in the field of Electronic Cooling. The candidate will work under the supervision of experienced faculty and collaborate with an interdisciplinary team to explore innovative cooling techniques for electronic systems, including the development of advanced thermal management solutions. Research Focus: The primary area of research will focus on: Thermal Management of Electronics: Studying and developing efficient cooling techniques for high-power electronic devices and systems. CFD Simulations: Utilizing Computational Fluid Dynamics (CFD) tools, such as ANSYS ICEPAK, to model and analyze heat transfer mechanisms in electronics. Phase Change Materials (PCMs): Researching the integration of PCMs into cooling systems to enhance thermal performance. Miniaturization of Cooling Solutions: Investigating novel cooling strategies like microchannel heat sinks and two-phase cooling for compact electronic components. Nanofluids in Cooling: Exploring the potential of nanofluids in enhancing heat transfer in electronic cooling applications. Experimental Validation: Designing and conducting experiments to validate simulation results and improve the reliability of electronic cooling methods. Key Responsibilities: Conduct research on advanced cooling systems for electronic components. Perform CFD simulations and thermal analysis using industry-standard software. Collaborate with other researchers and industrial partners on joint projects. Publish high-quality research papers in international peer-reviewed journals and conferences. Present research findings to academic and professional audiences. Qualifications: A Master's degree in Mechanical Engineering, Thermal Engineering, or a related field. Strong background in Thermal Management, Heat Transfer, and CFD. Experience with CFD tools (e.g., ANSYS ICEPAK, Fluent) and experimental methods related to electronic cooling is highly desirable. Excellent analytical and problem-solving skills. Ability to work independently and as part of a team. Benefits: Access to state-of-the-art research facilities, including the Center of Excellence for Electronic Cooling and CFD Sim Lab. Opportunity to collaborate with industry partners and gain exposure to real- world applications of electronic cooling. Competitive stipend and funding opportunities for conference presentations and publications. Application Process: Interested candidates should submit the following documents: A detailed CV. Statement of research interests and experience. Academic transcripts. Contact information for at least two academic or professional references. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19365 when responding to this ad. | |
Name | Dr. B. K. GNANAVEL |
gnanaveb@srmist.edu.in | |
Email Application | Yes |
Phone | +919677059138 |
URL | https://admissions.srmist.edu.in/srmistonline/phdapplication |
Address | Center of Excellence for Electronic Cooling and CFD Sim Lab, Email: head.ceec.ktr@srmist.edu.in, gnanaveb@srmist.edu.in |
Record Data: | |
Last Modified | 20:42:56, Saturday, September 14, 2024 |
Job Record #19367 | |
Title | CFD Engineer |
Category | Job in Industry |
Employer | Bailardi Engineering S.L. |
Location | Spain, Valencia |
International | Yes, international applications are welcome |
Closure Date | * None * |
Description: | |
CFD engineer València (España) Necessary stack: Python, JavaScript, Java xFoil (xflr5), Star-CCM+, OpenFOAM Salome, FreeCAD, Rhino We are seeking a 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. 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 #19367 when responding to this ad. | |
Name | HR manager |
admin@bailardi.com | |
Email Application | Yes |
Record Data: | |
Last Modified | 15:16:10, Saturday, September 14, 2024 |
Job Record #19366 | |
Title | PhD position CFD modelling of PEM Fuel Cells |
Category | PhD Studentship |
Employer | University of Sevilla |
Location | Spain, Sevilla |
International | Yes, international applications are welcome |
Closure Date | Saturday, November 30, 2024 |
Description: | |
A PhD position is available at the Energy Engineering Department, University of Sevilla (Spain). The position involves a 3+1 years funded contract for research in PEM fuel cells CFD modelling, for completing a PhD under the supervision of Prof. Alfredo Iranzo. Dedicated test benches and experimental facilities are also available for experimental validation. The position includes funding for research visits to international research centres in the field of PEM fuel cell research. Due to legal regulations and source of funding, it is compulsary that the candidate is a national of a EU member state, and must posses a Master Degree or equivalent (300 ECTS). Interested candidates can apply by sending CV with list of references and motivation letter by email. Starting date is expected in December 2024 / January 2025. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19366 when responding to this ad. | |
Name | Alfredo Iranzo |
airanzo@us.es | |
Email Application | Yes |
URL | http://www.us.es |
Record Data: | |
Last Modified | 03:33:38, Saturday, September 14, 2024 |
Job Record #19364 | |
Title | ML analysis and adjoint-based optimization for cavitating flows |
Category | PhD Studentship |
Employer | National Technical University of Athens |
Location | Greece, Athens |
International | Yes, international applications are welcome |
Closure Date | Saturday, September 21, 2024 |
Description: | |
Full title: ML enhanced analysis and adjoint-based optimization tools for cavitating flows in hydraulic turbines The Doctoral Candidate (DC10) will be hired for 34 months as part of the Industry empowerment to Multiphase fluid dynamics simulations using Artificial intelligence and Statistical methods on modern hardware architectures at Scale (SCALE) project being funded through the Horizon Europe Marie Skłodowska-Curie Actions (MSCA) Doctoral Networks. DC10 will be enrolled in the PhD program of the School of Mechanical Engineering of the National Technical University of Athens (NTUA), Greece. The main objective of DC10 is to develop physics-informed and numerics-informed DNNs (Deep Neural Networks) and apply them to shape optimization of hydraulic turbomachines. The objective by itself defines the scientific fields which DC10 will be working on: (a) Machine Learning (ML), (b) Computational Fluid Dynamics (CFD) for multiphase flows and (c) gradient-based optimization based on the adjoint method. Applicants should have adequate skills in all three of them; with regard to CFD, in particular, the candidate should have experience in programming, not only using CFD tools. As written above, the application domain will be that of hydraulic turbomachinery. A 4-month secondment (within the 34-month project) at ANDRITZ HYDRO (AHS-AT), Linz, Austria is scheduled; the purpose of this secondment is to collect data related to previous designs and apply the developed tools to industrial cases. DC10 will use and enhance the in-house GPU-enabled CFD solver PUMA of NTUA for the simulation of steady-state, cavitating flows. PUMA is based on the Transport-Equation-Mixture model (TEM) where liquid and vapor phases are considered as incompressible fluids and the mass transfer rates across them are determined using the Kunz model. PUMA also features a continuous adjoint method developed for shape optimization purposes. Both the prediction and adjoint-based optimization tools have been optimized for GPUs architectures. On the ML side, DC10 work will be based on available tools that use a specific two-branch DNNs to predict scalar fields; these DNNs have been used as surrogates of modeling tools in the framework of multi-disciplinary optimization, for example to replace turbulence and/or transition models to reduce the cost of RANS solvers. Enhancing, modifying and collating the mentioned codes, but also developing new methods to produce an efficient, accurate, reliable and low-cost tool for the optimization of hydraulic turbines will be the central task of DC10. Requirements Research Field Engineering: Mechanical engineering Education Level: Master Degree or equivalent Skills/Qualifications Candidates should have a strong background in CFD, especially for hydraulic turbomachines. In order of importance, they should possess good programming skills in C++ (mandatory) and CUDA-C (i.e. the programming environment of PUMA) and experience in using high-performance computing centers. Experience in using/developing optimization methods is welcome. This is a position in the field of CFD for incompressible/cavitating flows, in rotating machines, not based on commercial CFD s/w. Though experience in using commercial CFD s/w is welcome and surely helps, this position requires good programming skills and is addressed to programmers, rather than just users, of CFD s/w. Background knowledge regarding Machine Learning and Deep Neural Networks is required. Programming skills in Python and deep learning frameworks (preferably TensorFlow and TensorFlow C++ API) are mandatory (the first) and welcome (the second). Languages ENGLISH Level Excellent Benefits The selected candidate will receive a salary in accordance with the MSCA regulations for DCs. The minimum gross salary includes a living allowance (€3374.4 per month), a mobility allowance (€600 per month) and a family allowance (€660 per month), if the researcher has family (‘Family’ means persons linked to the researcher by (i) marriage or (ii) a relationship with equivalent status to a marriage recognised by the legislation of the country where this relationship was formalized or (iii) dependent children who are actually being maintained by the researcher). The guaranteed (EC) funding is for 34 months. Eligibility criteria Applicants can be of any nationality and must hold a Master of Science degree (or equivalent) in engineering. They need to fully respect the following eligibility criteria: (a) Must be doctoral candidates, i.e. not already in possession of a doctoral degree at the date of the recruitment. (b) Must undertake transnational mobility. Researchers must not have resided or carried out their main activity (work, studies, etc.) in Greece for more than 12 months in the 36 months immediately before their date of recruitment. Compulsory national service, short stays such as holidays, and time spent as part of a procedure for obtaining refugee status under the Geneva Convention are not taken into account. Selection process The candidates should send a CV, cover letter (in which the applicant’s experience in CFD development should become clear), BSc and MSc degrees (certified copies plus translation in English), and two letters of recommendation are necessary. Copies of publications could be sent later on, upon request. Personal interviews might be asked. All applications should be mailed to kgianna@mail.ntua.gr (email subject: “SCALE-DC10-Application”). The outcome of the evaluation process will be announced by mid of October 2024. The 34-month contract is expected to start around 01/11/2024. Additional comments DC10 will be working (excluding the secondment) at the Zografou Campus of NTUA in Athens, Greece. The PCOpt/NTUA group consists of about 15 people, including 4 experienced researchers, among which the major developers of the PUMA and its adjoint code. Apart from the PhD thesis supervisor (Prof. K. Giannakoglou), researchers of the PCOpt/NTUA Unit with previous experience in similar tasks (CFD code running on GPUs, adjoint methods, shape parameterization, cavitation models, turbomachinery) will support DC10 in her/his project/PhD. The PCOpt/NTUA Unit possesses a powerful multiprocessor platform, including both CPU and GPU clusters, which is expected to be upgraded during the project life; this will support research to be performed by DC10. Work Location Company/Institute: National Technical University of Athens Country: Greece City: Athens |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19364 when responding to this ad. | |
Name | Kyriakos Giannakoglou |
kgianna@mail.ntua.gr | |
Email Application | Yes |
URL | https://euraxess.ec.europa.eu/jobs/158482 |
Record Data: | |
Last Modified | 09:06:13, Thursday, September 12, 2024 |
Job Record #19363 | |
Title | CFD for urban and environmental flows |
Category | Job in Academia |
Employer | Sant'Anna school of advanced studies |
Location | Italy, FI, Pisa |
International | Yes, international applications are welcome |
Closure Date | Friday, October 18, 2024 |
Description: | |
We are seeking a candidate with experience in research focused on the numerical approximation of fluid dynamics problems. The role will prioritize the development of numerical techniques aimed at reducing complexity, including methods such as POD-Reduced Basis and Machine Learning. Research will involve high-level programming languages (C/C++/Python) and open-source libraries for scientific computing and machine learning (e.g., OpenFOAM, numpy, scipy, pyTorch, pandas). The work will focus on numerical simulations of urban air pollution diffusion for environmental flows in both urban and natural settings. The ideal candidate will possess strong communication skills in English, excellent social skills, and the ability to handle engineering and mathematical projects independently and in a team setting. A PhD is not required for this position, though candidates interested in pursuing a PhD are particularly encouraged to apply. Interested candidates are encouraged to apply at this link (applications by email will not be considered): https://www.santannapisa.it/en/node/279416 |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19363 when responding to this ad. | |
Name | Giovanni Stabile |
giovanni.stabile@santannapisa.it | |
Email Application | No |
Phone | 3335273567 |
URL | https://www.santannapisa.it/en/node/279416 |
Record Data: | |
Last Modified | 08:28:58, Wednesday, September 11, 2024 |
Job Record #19357 | |
Title | PhD in Numerical Liquid Jet Destabilization (CFD) |
Category | PhD Studentship |
Employer | EDF R&D - CORIA |
Location | France, Chatou |
International | Yes, international applications are welcome |
Closure Date | Friday, November 15, 2024 |
Description: | |
1) Context Join EDF (Electricity of France) in pioneering the future of dam safety! With over 250 dams under our vigilant watch across France, we are committed to ensuring their resilience and reliability. Our dams are equipped with advanced spillway structures (EVC) to address critical safety concerns. As part of our team, you will delve into the dynamic analysis of spill behavior over the crowning, rigorously assessing the stability of support structures under varying load conditions. This role demands a deep dive into the physics of overflowing blades, enhancing our control over installation safety and pushing the boundaries of engineering excellence. Your research will delve into the fascinating dynamics of water jet pressure from dam spillways. You will characterize the behavior of overflowing liquid jets, propose innovative design modifications to flood spillways aimed at mitigating water pressure impacts, and develop sophisticated numerical models to simulate these water jet spillways. This role offers a unique opportunity to contribute to the advancement of dam safety and engineering innovation. 2) Objectives The primary objectives of this Ph.D. thesis are: - To understand the physical mechanisms of water jet spillways destabilization and stabilization. - To propose design changes to flood spillways. - To propose, improve, and develop Finite Volume numerical models using Euler-Euler (EE) two-fluid or Volume of Fluid (VoF) approach (choice to be revised at the beginning of the thesis and/or during a previous internship described below). Ideally, a 5-month internship is available for potential candidates before the doctorate (URL link for more information). The internship will focus on the viability of reproducing water-air interface instabilities during spills using existing/proposed turbulence and numerical models (RANS and LES). Two numerical approaches would be tested/compared, the EE and VoF method already available respectively in neptune_cfd and code_saturne software. 3) Work Environment The research will be conducted between CORIA (a Joint Research Unit attached to the Institute of Engineering and Systems of CNRS) and EDF (Electricity of France). The work will build upon a Post-Doc research (2020), which evolved the ELSA (Euler-Lagrange Spray Atomization) model to account for gravity in the destabilization/stabilization of the liquid-air interface, and a Ph.D. thesis (2023), which reproduced the PDF of pressures at the base of the fall by finely reconstructing the liquid-air interface near the impact zone. The stratified/dispersed multi-regime numerical model of neptune_cfd will be used to focus mainly on large structures of the flow. 4) General information 5-month internship plus 3-year PhD thesis, at the EDF laboratory, Chatou, France. - Contract start date: preferably 4th November 2024 - Funding: 100% EDF - Academic supervisor : François-Xavier Demoulin (CORIA) - Industrial supervisor : Yvan bercovitz, Javier Anez (EDF) - Contacts: Yvan Bercovitz (yvan.bercovitz@edf.fr) 5) Applicant Profile The ideal candidate should be: - Autonomous: Capable of working independently and taking initiative. - Proactive: Able to anticipate problems and take action to prevent them. - Motivated: Driven to achieve goals and continuously learn and improve. - Curious: Interested in learning more about the field and exploring new ideas. - Team Spirit: Able to work well in a team and contribute to a positive working environment. - Resilient: Able to persevere through complicated tasks and challenges. This is an exciting opportunity to contribute to important research in the field of hydrodynamics. Your research could potentially revolutionize the design of flood spillways and contribute to safer and more efficient hydroelectric power plants. This is not just a Ph.D. thesis, but a chance to make a real-world impact. We look forward to receiving your application. Application procedure: - Send CV, cover letter and Grades from Master 1 and 2 or equivalent engineering level to javier.anez-perdomo@edf.fr - Applications are to be sent before 31st October 2024. - Incomplete applications will not be considered. |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19357 when responding to this ad. | |
Name | Recruitment Manager |
javier.anez-perdomo@edf.fr | |
Email Application | Yes |
URL | https://www.edf.fr/edf-recrute/offre/detail/2024-114714 |
Address | javier.anez-perdomo@edf.fr |
Record Data: | |
Last Modified | 16:20:32, Tuesday, September 10, 2024 |
Job Record #19362 | |
Title | PhD position in simulation/experiments of multiphase flows |
Category | PhD Studentship |
Employer | Universitat Rovira i Virgili |
Location | Spain, Tarragona |
International | Yes, international applications are welcome |
Closure Date | Monday, September 30, 2024 |
Description: | |
The Department of Mechanical Engineering of the University Rovira i Virgili of Tarragona is looking for an outstanding and committed candidate for PhD studies in the field of computational and experimental fluid dynamics. PROJECT TITLE: Carbon dioxide capture and dissolution in turbulent and laminar flows under different rheological conditions with implications in decarbonization processes REQUIREMENTS: Candidate should have a graduate degree in a relevant engineering, mathematics or physics subject, and be highly motivated to undertake research in this field. Candidates with a background in computational and/or experimental fluid dynamics are strongly encouraged to apply. STUDENTSHIP: Gross monthly payment of the contract during the first year of 24,600€, plus the corresponding fees for thesis supervision. The amount for the second, third and fourth years is 30,200€. DURATION: contracts will have an initial duration of one year and will be extended for a maximum of four years provided that the thesis supervisor has submitted a favourable report and in accordance with the academic committee of the doctoral programme. APPLICATION PROCESS: If you're interested in, please send us your CV to the address lluis.vazquez@urv.cat. DEADLINE: September 30th, 2024 HOST INSTITUTION: The Universitat Rovira i Virgili (URV) is based in the province of Tarragona on the Mediterranean coast and surrounded by areas of great natural beauty. The URV is a modern public higher education institution with a proud and widely recognized track record in providing teaching and research. It is a university with a strong commitment to find solutions to the challenges facing society through the generation of knowledge and the provision of education that produces highly trained and discerning professionals and citizens. Since 2019, it is member of Aurora Alliance, a consortium of research intensive universities deeply committed to the social impact of their activities. Every year, more than 1.150 PhD students initiate their doctoral studies in the URV, in one of the 26 Doctoral Programs available. The thesis will be developed in the Doctoral Program Nanoscience, Materials and Chemical Engineering. The aim of this programme is to provide future professionals with a strong sense of innovation in nanoscience, materials chemistry and chemical engineering who are especially oriented towards conducting research in public institutions or industry. Research lines include nano(bio)technology, biosensors, lasers, fluid mechanics, heterogeneous catalysis and all areas of chemical engineering, such as process and product engineering, transport phenomena, environmental science, biotechnology and food technology. The programme strengthens students’ research capabilities through theoretical and/or experimental project while stressing the importance of disseminating and publishing results, promoting mobility and academic exchanges and encouraging collaboration with local and national industries. For further information about the program, visit: http://www.doctor.urv.cat/en/prospective-students/courses/7710/index/ The thesis will be carried out in the facilities of the ECoMMFiT Research group. Examples of the experience of the group in simulation and experiments of multiphase flows can be found in: Sassi et al. (2022) Effect of solid particles on the slug frequency, velocity and length of intermittent gas-liquid two-phase flows in horizontal pipelines, International Journal of Multiphase Flow, 149, 103985. DOI: 10.1016/j.ijmultiphaseflow.2022.103985 Pallares et al. (2023) Numerical simulations of the flow and aerosol dispersion in a violent expiratory event: Outcomes of the “2022 International Computational Fluid Dynamics Challenge on violent expiratory events”, Physics of Fluids, 35, 045106, DOI: 10.1063/5.0143795 Kazemi et al. (2024) Numerical investigation of a pair of in-line bubbles rising in Newtonian and non-Newtonian fluids with interfacial passive scalar transfer, Physics of Fluids 36, 022106, DOI: 10.1063/5.0185472 |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19362 when responding to this ad. | |
Name | Lluís Vázquez Vilamajó |
lluis.vazquez@urv.cat | |
Email Application | Yes |
URL | http://www.urv.cat/en/ |
Address | Av. Països Catalans, 26 43007 Tarragona Spain |
Record Data: | |
Last Modified | 13:03:21, Tuesday, September 10, 2024 |
Job Record #19361 | |
Title | M.Sc. Research Internship “CORIA-STG2-25” |
Category | Job in Academia |
Employer | CORIA |
Location | France, Normandy, Saint-Étienne-du-Rouvray |
International | Yes, international applications are welcome |
Closure Date | Sunday, March 31, 2024 |
Description: | |
*Subject (Title) CFD modeling and simulation of pollutants dispersion in urban environment *Keywords Modeling and Simulation, Computational Fluid Dynamics (CFD), Aerodynamics, Particles Dispersion, High Performance Computing, Turbulence, Environmental Engineering *Hosting Entities The University of Rouen Normandy (https://www.univ-rouen.fr/), with its strong multidisciplinary identity, is a major player in training and research in Normandy region and in France. It pays particular attention to overcome the challenges of higher education and contribute to the overall economic and social development of its territory. Created in 1967, CORIA, “Complexe de Recherche Interprofessionnel en Aérothermochimie" (https://www.coria.fr/en/the-lab/), is a Joint Research Unit (UMR 6614) CNRS and the University of Rouen Normandy. *Research Context This research internship is a part of a large project “HÉLIOS” entitled “De la caractérisation spatiale, sanitaire et sociale des pHÉnomènes d'îLots de chaleur urbaIns à l'exploration et l'évaluation de solutiOns d'adaptation fondéeS sur la nature” by 5 lcoal region communities (Le Havre, Métropole Rouen Normandie, Mantes-la-Jolie, Communauté d'Agglomération de Cergy- Pontoise, Argenteuil) in collaboration with CORIA Lab, other labs and T.URN institute (https://www.univ-rouen.fr/actualites/decouvrez-linstitut-t-urn/). This internship is also in a global context of developing a multi-risk platform in Normandy region in France (e.g. for floods, fires and particles dispersion, air pollution dispersion, among others). One of the missions is to predict accurately the local urban heat island effects and local heat waves at the scale of the city. *Objective The main objective is to develop, implement and validate a mesoscale model in CFD to take into account the air pollutants dispersion in outdoor microclimate and their local interaction with vegetation and green spaces. The latter usually modifies the mean flow motion into wake turbulence where the smaller length scales compared to the turbulence generated by the shear flow induces a fast dissipation. This will allow to investigate how local trees in the métropole region can contribute 1to the local interaction with air pollutants dispersion outdoors under different wind speeds, air conditions, solar radiation and stomatal resistance. The major 3 work packages in this internship are the following: 1- Take into hands the CFD code OpenFOAM® and implement a new turbulence-modified models 2- Define and solve a bench 3D CFD case to validate the newly implemented turbulence models 3- Define and solve a 3D CFD case of the métropole that will investigate/predict the effects of different scenarios of local wind speeds, air conditions, solar radiation and stomatal resistance. *Required Profile Scientific Background: Student currently in Master-2 (M.Sc.) in the fields of computational fluid dynamics, environmental engineering, aerodynamics, turbulence, heat and mass transfer, continuum modeling of air pollutants dispersion, advection of concentration of pollutant particles. Experience within OpenFOAM® in particular would be a plus (https://www.openfoam.com/). *Skills: Taste for modeling and numerical simulation in CFD, in-depth notions in fluid mechanics and turbulence, and aerodynamics in presence of obstacles and immersed objects. Interest in high performance and parallel computing within CFD. Good taste for a teamwork and a good level of Scientific English, speaking, reading and writing. *Supervisors Prof. DBOUK Talib (CORIA), Prof. REVEILLON Julien (CORIA), Dr. GEFFROY Alexandre (T.URN) *Remuneration ≈600 € /month *Apply Please send your CV and motivation letter to the following email addresses: talib.dbouk@coria.fr julien.reveillon@coria.fr *References Amorim, J.H., Rodrigues, V., Tavares, R., Valente, J., Borrego, C., 2013. CFD modelling of the aerodynamic effect of trees on urban air pollution dispersion. Sci. Total Environ. 461, 541–551. https://doi.org/10.1016/j.scitotenv.2013.05.031 |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19361 when responding to this ad. | |
Name | Professor Talib DBOUK |
talib.dbouk@coria.fr | |
Email Application | Yes |
URL | https://www.coria.fr/en/ |
Record Data: | |
Last Modified | 10:33:46, Tuesday, September 10, 2024 |
Job Record #19360 | |
Title | M.Sc. Research Internship “CORIA-STG1-25” |
Category | Job in Academia |
Employer | CORIA |
Location | France, Normandy, Saint-Étienne-du-Rouvray |
International | Yes, international applications are welcome |
Closure Date | Sunday, March 31, 2024 |
Description: | |
*Hosting Institute The University of Rouen Normandy (https://www.univ-rouen.fr/), with its strong multidisciplinary identity, is a major player in training and research in Normandy region and in France. It pays particular attention to overcome the challenges of higher education and contribute to the overall economic and social development of its territory. Created in 1967, CORIA, “Complexe de Recherche Interprofessionnel en Aérothermochimie" (https://www.coria.fr/en/the-lab/), is a Joint Research Unit (UMR 6614) CNRS and the University of Rouen Normandy. *Research Context This research internship is a part of a large project “HÉLIOS” entitled “De la caractérisation spatiale, sanitaire et sociale des pHÉnomènes d'îLots de chaleur urbaIns à l'exploration et l'évaluation de solutiOns d'adaptation fondéeS sur la nature” by 5 lcoal region communities (Le Havre, Métropole Rouen Normandie, Mantes-la-Jolie, Communauté d'Agglomération de Cergy-Pontoise, Argenteuil) in collaboration with CORIA Lab, other labs and the T.URN institute (https://www.univ-rouen.fr/actualites/decouvrez-linstitut-t-urn/). This internship is also in a global context of developing a multi-risk platform in Normandy region in France (e.g. for floods, fires and particles dispersion, air pollution dispersion, among others). One of the missions is to predict accurately the local urban heat island effects and local heat waves at the scale of the city. *Objective The main objective is to develop, implement and validate a mesoscale model in CFD to take into account the urban trees effect on the outdoor microclimate by coupling a canopy energy balance (CEB) models. This will allow to investigate how local trees in the métropole region can affect outdoor microclimate under different wind speeds, air conditions, solar radiation and stomatal resistance. The major 3 work packages in this internship are the following: 1- Take into hands the CFD code OpenFOAM® and implement a new CEB model 2- Define and solve a bench 3D CFD case to validate the newly implemented CEB model 3- Define and solve a 3D CFD case of the métropole that will investigate/predict the effects of different scenarios of local wind speeds, air conditions, solar radiation and stomatal resistance. *Required Profile Scientific Background: Student currently in Master-2 (M.Sc.) in the fields of computational fluid dynamics, aerodynamics, turbulence, heat and mass transfer. Experience within OpenFOAM® in particular would be a plus (https://www.openfoam.com/). *Skills: Taste for modeling and numerical simulation in CFD, in-depth notions in fluid mechanics and turbulence, and aerodynamics in presence of obstacles and immersed objects. Interest in high performance and parallel computing within CFD. Good taste for a teamwork and a good level of Scientific English, speaking, reading and writing. *Supervisors Prof. DBOUK Talib (CORIA), Prof. REVEILLON Julien (CORIA), Dr. GEFFROY Alexandre (T.URN) *Remuneration about 600 € /month *Apply Please send your CV and motivation letter to the following email addresses: talib.dbouk@coria.fr julien.reveillon@coria.fr *References Schwaab, J., Meier, R., Mussetti, G. et al. The role of urban trees in reducing land surface temperatures in European cities. Nat Commun 12, 6763 (2021). https://doi.org/10.1038/s41467-021-26768-w |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19360 when responding to this ad. | |
Name | Talib DBOUK |
talib.dbouk@coria.fr | |
Email Application | Yes |
URL | https://www.coria.fr/en/ |
Record Data: | |
Last Modified | 10:30:13, Tuesday, September 10, 2024 |
Job Record #19359 | |
Title | 3-year fully funded PhD position at Ecole Centrale Nantes |
Category | PhD Studentship |
Employer | LHEEA |
Location | France, Nantes |
International | Yes, international applications are welcome |
Closure Date | Monday, March 31, 2025 |
Description: | |
Initially based on an explicit weakly compressible approach, the Smoothed Particle Hydrodynamics (SPH) method is a meshless and Lagrangian particle method offering large advantages for solving complex CFD problems. In particular, the absence of an underlying grid allows simulations involving strong deformations of the fluid interface, possibly with disconnections/reconnections and in coupled interactions with deformable geometries. However, the weakly compressible explicit character of the scheme imposes small time steps through a CFL condition, responsible for possibly high calculation times. This PhD project concerns the development of an incompressible SPH scheme, making it possible to partially or totally relieve the constraints linked to the CFL condition and to drastically speedup the simulations, while retaining the advantages inherent in this specific method. This research work revolves around three axes: - Work on an incompressible SPH scheme oriented towards multiphase flows - Research on a surface tension model compatible with the selected scheme - Development of a phase change model compatible with the selected scheme These developments will be applied and validated on several benchmarks, involving strong deformations of the free surface in interaction with complex geometries. Conditions: The PhD thesis will take place at LHEEA (Ecole Centrale Nantes, France), within a development team specializing in the SPH method. Gross monthly salary: 2150 euros Required documents to apply: CV, letter of interest and transcripts for the last two years Application deadline: March 2025 https://lheea.ec-nantes.fr/version-francaise/offres-demplois-de-theses-et-de-stages-au-lheea |
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Contact Information: | |
Please mention the CFD Jobs Database, record #19359 when responding to this ad. | |
Name | Guillaume Oger |
guillaume.oger@ec-nantes.fr | |
Email Application | Yes |
Record Data: | |
Last Modified | 10:06:01, Tuesday, September 10, 2024 |