Postdoctoral position in thermodynamic system H/F

Job title:

Postdoctoral position in thermodynamic system H/F

Company:

Commissariat à l’Énergie Atomique

Job description

Entité de rattachement Le CEA est un acteur majeur de la recherche, au service des citoyens, de l’économie et de l’Etat.Il apporte des solutions concrètes à leurs besoins dans quatre domaines principaux : transition énergétique, transition numérique, technologies pour la médecine du futur, défense et sécurité sur un socle de recherche fondamentale. Le CEA s’engage depuis plus de 75 ans au service de la souveraineté scientifique, technologique et industrielle de la France et de l’Europe pour un présent et un avenir mieux maîtrisés et plus sûrs.Implanté au cœur des territoires équipés de très grandes infrastructures de recherche, le CEA dispose d’un large éventail de partenaires académiques et industriels en France, en Europe et à l’international.Les 20 000 collaboratrices et collaborateurs du CEA partagent trois valeurs fondamentales :

• La conscience des responsabilités
• La coopération
• La curiosité

Référence 2024-32507Description de l’unitéDirection des Energies (DES), Laboratoire d’Innovation pour les Technologies des Energies Nouvelles (LITEN)Description du posteDomaineMécanique et thermiqueContratPost-doctoratIntitulé de l’offrePostdoctoral position in thermodynamic system H/FSujet de stagePostdoctoral position in thermodynamic system: Development of a new reversible machine for heat-electricity conversion by upgrading low-value energyDurée du contrat (en mois)24Description de l’offreIndustrial energy demand represents 32% of total energy consumption in the world. Supporting the transformation of industrial sites in their decarbonization is a major challenge for achieving the objectives of carbon neutrality by 2050. Three quarters of this industrial energy demand is in the form of heat, still mainly produced from fossil resources (this i.e. coal, natural gas and oil).The International Energy Agency’s Net Zero Emission (NZE) strategy targets an increasing share of heat produced from electricity (i.e. by direct heating or via heat pump systems) , which must be around 15 to 40% by 2030 and around 65% in 2050 to meet industrial heat demands at low (
150°C) and medium temperatures (150°C-400°C). Therefore, the development and massive deployment of efficient heat pump systems are already encouraged to achieve the energy transition of industries towards decarbonization of their heat supply, in particular below 150°C for applications in industries such as chemicals, paper and agri-food. However, the expected massive electrification of different sectors of activity around 2035 (and in the decades to come) could lead, according to certain authors, to a crisis in electricity supply, particularly to meet the strong energy demand of giga-factories dedicated to the energy transition for local production of batteries and photovoltaic panels.For these reasons, the HERCULE project aims to develop an innovative thermodynamic cycle capable of responding to the following challenges:· Societal issues: recovery of waste heat for carbon-free production of electricity or industrial heat according to needs and economic criteria;· Environmental issues: regulations on greenhouse gases;· Scientific challenges: flexible conversion systems with reversible operation, compact & efficient machines.The scientific and technological breakthrough proposed by the HERCULE project concerns the reversibility of the cycle: “power2heat”
–
“heat2power” for a more compact conversion system with lower CAPEX. By coupling with a CARNOT battery-type storage element, prospects can be investigated for energy efficiency and decarbonization of the industry.The objectives of the HERCULES project are:· Development of an innovative machine for the production of heat (
100°C) or electricity from waste heat sources, using natural fluids (GWP = 0) with the optimization of its architecture and components;· Targeted TRL = 4 with proof of concept in the laboratory.The studies to be carried out concern modeling, numerical simulations as well as the development of the prototype and the performance measurements and analysis. The laboratory’s experienced technical team will support the postdoctoral researcher particularly for the experimental studies.Profil du candidatYou should hold a PhD in Thermal Science or Thermal Energy. We are hiring a motivated PhD with well-developed scientific skills and strong knowledge in modelling, simulation, data analysis and experimental setup. Prior experience in thermodynamic systems would be appreciated. The ability to work efficiently as part of a team and to perform both self-directed and guided research are required. Mastering English with excellent writing skill for publication and communication is a must.Localisation du posteSiteAutreLocalisation du posteFrance, Auvergne-Rhône-Alpes, Savoie (73)VilleLe Bourget du LacCritères candidatLanguesAnglais (Courant)DemandeurDisponibilité du poste01/01/2025

Expected salary

Location

Savoie

Job date

Tue, 09 Jul 2024 22:59:30 GMT

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