My research focuses on optimizing the integration of photovoltaic (PV) systems with water electrolysis, particularly Proton Exchange Membrane (PEM) electrolyzers, for hydrogen production as part of the EU Horizon project Circular Fuels.
In addition to advancing each technology individually by identifying and addressing operational inefficiencies, my work delves into the electrical coupling and operational dynamics of large-scale green hydrogen production systems, commonly referred to as Power-to-Hydrogen.
The ultimate goal of my research is to support decision-making for the optimal sizing and configuration of a coupled PV-PEM-hydrogen storage system, tailored to the specific co-location and infrastructure of the energy system.
My research focuses on optimizing the integration of photovoltaic (PV) systems with water electrolysis, particularly Proton Exchange Membrane (PEM) electrolyzers, for hydrogen production as part of the EU Horizon project Circular Fuels.
In addition to advancing each technology individually by identifying and addressing operational inefficiencies, my work delves into the electrical coupling and operational dynamics of large-scale green hydrogen production systems, commonly referred to as Power-to-Hydrogen.
The ultimate goal of my research is to support decision-making for the optimal sizing and configuration of a coupled PV-PEM-hydrogen storage system, tailored to the specific co-location and infrastructure of the energy system.