The CEA welcomes 1,600 doctoral PhD students to its laboratories each year.
Thesis
Home / Post Doctorat / Sizing and control optimisation of a hydrogen production system coupled with an offshore wind farm
Sizing and control optimisation of a hydrogen production system coupled with an offshore wind farm
Engineering sciencesMathematics - Numerical analysis - SimulationMechanics, energetics, process engineering
Abstract
Coupling MRE (Marine Renewable Energy) and hydrogen sectors reveal an important potential long-term assets. The MHyWind project suggests to estimate the energetic and economic potential of a hydrogen production system integrated into a substation of an offshore wind farm. The hydrogen produced and stored locally will be distributed by boat for harbour uses, as a replacement of fossil fuels. For that purpose, it will be organized a simulation which will integrate all the energy chain towards the harbour uses of hydrogen. It will allow to estimate various configurations and sizing according to the local uses, valuation leverages, control modes and behavior of the system. The criteria will be the producible (kg of H2 producted and used) and complet costs (CAPEX and OPEX). The objective of the postdoctoral student will be to develop the simulation tool on this applicative being fully integrated with the teams of concerned laboratories.
Nous utilisons des cookies pour vous garantir la meilleure expérience sur notre site web. Si vous continuez à utiliser ce site, nous supposerons que vous en êtes satisfait.OKNonPolitique de confidentialité