IMT Atlantique, which belongs to the Institut Mines-Telecom, is a technological university and an international research center attached to the ministry in charge of industry and digital technologies. Located on three campuses (Brest, Nantes, and Rennes) IMT Atlantique aims to combine Information and Communication Technologies, Energy, and Environment to transform society and industry through training, research, and innovation. IMT Atlantique encompasses 1,800 students at master and doctorate level. The research activity is focused on digital technology, energy, and environment. It is conducted by 270 permanent researchers and produces around 900 publications per year.
The Department Energy Systems and Environment (DSEE) is one of the 12 departments of IMT Atlantique. It employs about 70 staff members, including 20 permanent researchers, 6 engineers and technicians, 3 administrative staff, PhD students, research engineers, and post-doctoral fellows. The department is part of the CNRS unit GEPEA and conducts research in process engineering applied to bio-resources and environmental technologies through 3 research teams: Water Treatment Air Metrology (TEAM); Energy / Residue Recycling and Emissions Processing (VERTE); Optimization - System – Energy (OSE).
In 2018, in the document “Going Climate Neutral by 2050”, EU presents a long-term strategic vision to reduce greenhouse gas (GHG) emissions which outlines seven strategic blocks among which: 1) to maximize the deployment of renewables and 2) to develop smart networks infrastructure and interconnection.
European energy transition targets a system with a share of 32% of renewable by 2030. However, the mismatch between energy availability and demand and the diffuse nature of renewable sources challenges this objective.
Multi-carrier Energy Systems (MES) are foreseen as of the most promising ways to achieve an efficient integration of renewable energy sources in the future energy mix. Indeed, exploiting the synergy between different energy carriers improves the flexibility of the energy system and facilitates mitigating the mismatch between energy availability and demand. In these systems, the interaction between different energy carriers such as heat, electricity, gas, hydrogen, etc… can take place through interconnected energy networks at the building, regional, or national level.
Designing and planning such networks are complex problems that require taking into account a large number of parameters including energy demand and its variability, energy resources availability and intermittence, energy and systems costs. Besides, these problems are also subject to multiple technical constraints related to the operation of the technologies used for energy production and storage, other constraints related to the energy networks used for transport and distribution, and additional constraints related to the environment or urban planning among others.
Different research works aim to develop modelling tools to simulate the interactions between the components of large multi-carrier networks. Their combination with the optimization and decision aiding techniques is a solution to handle these complex problems. However, modelling tools that can simulate such large systems in reasonable computation times are lacking and continuous efforts are made by researchers around the world to develop new models and to imagine new methodologies to optimize large multi-carrier networks. In this context, researchers at IMT Atlantique develop continuously the software platform GEMELLUS for multi-carrier energy networks modelling and optimization. This platform combines innovative modelling and optimization approaches with HPC to tackle the complexity of these decision problems.
In this context the Post Doc will work on different demonstration use cases using the GEMELLUS platform to test the performance of the models and the optimization solutions developed by the team for optimal design and operation of MES. Working on these practical use cases aims to identify possible improvements the Post Doc will be in charge of addressing. He/She will also participate to the ongoing development of additional functionalities of both modelling solutions and optimization strategies, together at the energy systems scale and the distribution networks level.
Background and skills:
The candidate should have obtained a PhD in the field of Energy engineering or Applied Mathematics with experience in the Energy field. He/She will have strong skills in energy systems modelling with a proven experience in the development of models of one or many energy systems (production/ conversion/storage/transport etc..).
Excellent mastery of scientific programming and algorithmic will be a very important selection criterion. Good knowledge of optimization algorithms is strongly recommended.
The candidate will demonstrate the English level compatible with daily work in an international context added to excellent teamwork competencies.
Duration: 13 months
Beginning: Sept. 2021
Gross annual salary (informative): 34,400 euros
Employer: IMT Atlantique
Location: IMT Atlantique, Dept. Energy Systems and Environment, campus of Nantes
To apply, send a single pdf file including a detailed CV, a motivation letter, a full list of publications to the following e-mail address:
firstname.lastname@example.org - Bruno Lacarrière (IMT Atlantique, Dept. DSEE)Apprenez-en davantage
|Intitulé||Postdoctoral fellowship - Energy modeling and optimization for Multi-carrier Energy Systems|
|Job location||4, rue Alfred Kastler - La Chantrerie, 44307 Nantes cedex 3|
|Publié||mai 19, 2021|
|Date limite d'inscription||Non Spécifiée|
|Types d'emploi||Post doc  |
|Domaines de recherche :||Technologies énergétiques,   Mathématiques appliquées,   Ingénierie des systèmes,   Énergie renouvelable  |