It is now universally established that the use of fossil fuels is responsible for environmental issues such as global warming. Among the different renewable energy sources, solar energy is considered one of the most affordable resources for meeting current energy demands and mitigating environmental problems. However, the exploitation of solar energy is challenging because of both diurnal and seasonal variations. Power-to-Hydrogen technologies can play a key role to counterbalance the variation of solar irradiance. Moreover, hydrogen-fueled gas turbines are considered promising technologies to decarbonize the electricity sector. To tackle these concerns, this paper presents a multigeneration energy system operated in island mode in which a hydrogen-fueled gas turbine is coupled with a solar photovoltaic plant, an electrolyzer, an absorption chiller, electric and thermal energy storage, as well as a hydrogen storage. Therefore, the energy system is 100% based on renewable energy. The sizes of the components and the respective energy management strategy are optimized by maximizing the exploitation of renewable energy sources, while the supply of electricity from the national grid must be null. Moreover, the effect of ambient conditions on the optimal sizing is also investigated by considering the thermal, cooling and electrical energy demands of two case studies located in two different climatic zones. The paper demonstrates that the adoption of hydrogen-fueled gas turbines coupled with Power-to-Hydrogen technologies can effectively support the transition towards a clean energy supply. Moreover, this study provides a procedure for the optimal sizing of a multigeneration energy system fully based on solar energy, by also demonstrating that both PV panel area and hydrogen storage volume are feasible, if compared to the considered district layout.

Analysis of a Multi-Generation Renewable Energy System with Hydrogen-Fueled Gas Turbine

Hilal Bahlawan
Primo
;
Enzo Losi
Secondo
;
Lucrezia Manservigi;Pier Ruggero Spina
Penultimo
;
Mauro Venturini
Ultimo
2022

Abstract

It is now universally established that the use of fossil fuels is responsible for environmental issues such as global warming. Among the different renewable energy sources, solar energy is considered one of the most affordable resources for meeting current energy demands and mitigating environmental problems. However, the exploitation of solar energy is challenging because of both diurnal and seasonal variations. Power-to-Hydrogen technologies can play a key role to counterbalance the variation of solar irradiance. Moreover, hydrogen-fueled gas turbines are considered promising technologies to decarbonize the electricity sector. To tackle these concerns, this paper presents a multigeneration energy system operated in island mode in which a hydrogen-fueled gas turbine is coupled with a solar photovoltaic plant, an electrolyzer, an absorption chiller, electric and thermal energy storage, as well as a hydrogen storage. Therefore, the energy system is 100% based on renewable energy. The sizes of the components and the respective energy management strategy are optimized by maximizing the exploitation of renewable energy sources, while the supply of electricity from the national grid must be null. Moreover, the effect of ambient conditions on the optimal sizing is also investigated by considering the thermal, cooling and electrical energy demands of two case studies located in two different climatic zones. The paper demonstrates that the adoption of hydrogen-fueled gas turbines coupled with Power-to-Hydrogen technologies can effectively support the transition towards a clean energy supply. Moreover, this study provides a procedure for the optimal sizing of a multigeneration energy system fully based on solar energy, by also demonstrating that both PV panel area and hydrogen storage volume are feasible, if compared to the considered district layout.
2022
9780791886052
Electric power transmission networks; Energy management; Fossil fuels; Gas turbines; Global warming; Heat storage; Natural resources; Solar energy; Solar panels; Solar power generation
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/2501691
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