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A promising and environmentally friendly candidate to replace fossil fuels is hydrogen gas. It is usually produced by electrolysis, but an alternative for hydrogen production is thermochemical cycles, which have a low environmental impact and are economically viable, especially when used with solar energy. Based on a survey of the literature, it was decided to work with thermochemical cycles, as they have a high yield compared to electrolysis. The disadvantage is the need for a high temperature in the reduction stage, which is an endothermic process consuming a large amount of energy. The aim…mehr

Produktbeschreibung
A promising and environmentally friendly candidate to replace fossil fuels is hydrogen gas. It is usually produced by electrolysis, but an alternative for hydrogen production is thermochemical cycles, which have a low environmental impact and are economically viable, especially when used with solar energy. Based on a survey of the literature, it was decided to work with thermochemical cycles, as they have a high yield compared to electrolysis. The disadvantage is the need for a high temperature in the reduction stage, which is an endothermic process consuming a large amount of energy. The aim of this research was to demonstrate the feasibility of producing hydrogen from entirely renewable and inexhaustible sources, in this case using solar energy, which in turn would be applied to the dissociation of the water molecule (H2O) into hydrogen and oxygen molecules.
Autorenporträt
Margarida Szurkalo - Master of Science in Nuclear Technology-Materials. Eduardo Cesar de Oliveira - Process Technologist. Rodrigo Teixeira Bento - Industrial Mechatronics Technologist. Tatyana Christina Faccin Borazanian - Urban Architect.