New concept in maximum power tracking for the control of a photovoltaic/hydrogen system

TítuloNew concept in maximum power tracking for the control of a photovoltaic/hydrogen system
Tipo de PublicaciónJournal Article
Año de Publicación2012
AutoresInthamoussou FA, De Battista H, Mantz RJ
JournalInternational Journal of Hydrogen Energy
Páginas14951 - 14958
Palabras claveHydrogen production

For the sustainable production of clean H2, it is essential to optimize the capture and conversion of renewable energy. In this context, this paper presents a new technique to maximize the efficiency of a photovoltaic conversion system supplying an electrolyzer. Simple, efficient and low cost maximum power point tracking algorithms to optimize energy production are proposed for the three DC/DC electronic converter topologies typically used in photovoltaic and H2 applications. The method is based on energy balance concepts and exhibits certain analogies with maximum power tracking algorithms extensively used in wind turbines that do not require measurement of the primary energy source. The algorithm provides a reference to the current controller only requiring measurement of electrical variables and solar array temperature. The current controller is implemented using sliding mode strategies. Experimental and simulation results are provided showing the effectiveness and simplicity of the proposed method.

Líneas de investigación: 
Control de sistemas de conversión de energías renovables
Control of renewable energy systems
Control of hybrid renewable systems and their integration to the grid
Control de sistemas híbridos de energías renovables y su integración a la red