The role of hydrogen storage and electric vehicles in grid-isolated hybrid energy system with high penetration of renewable
Articolo
Data di Pubblicazione:
2024
Citazione:
(2024). The role of hydrogen storage and electric vehicles in grid-isolated hybrid energy system with high penetration of renewable [journal article - articolo]. In ENERGY CONVERSION AND MANAGEMENT. Retrieved from https://hdl.handle.net/10446/263906
Abstract:
A techno-economic optimization for an isolated grid with a high share of renewables (75%) is presented, with the
goal of providing an energy-balanced system at low-cost and reducing stresses on the distribution network. The
model, developed with TRNSYS software, involves a wide variety of renewable generators and storage systems.
Special attention is given to the possible synergy between electric vehicles, including their use as grid storage,
and hydrogen as an energy carrier. Two locations with different climatic conditions (cold continental and
southern Europe) were considered to study the influence of resource availability on the resulting energy mix. The
main impact of electric vehicles is due to the emergency charging, which increases peak demand by 50%. Nonprogrammable
renewables have the lowest cost, but require expensive storage to balance the grid. In continental
climate (Northern Italy), hydro can provide near-base load generation, minimizing the need for storage and
achieving a minimum LCOE of 0.1464 USD/kWh. The good solar energy at a low latitude location (Southern
Italy) allows the CSP system to be exploited where the integrated thermal storage reduces the demand for highcost
electric storage: the best solution achieves an LCOE of 0.1890 USD/kWh, comparable to the cost of the
Italian market.
goal of providing an energy-balanced system at low-cost and reducing stresses on the distribution network. The
model, developed with TRNSYS software, involves a wide variety of renewable generators and storage systems.
Special attention is given to the possible synergy between electric vehicles, including their use as grid storage,
and hydrogen as an energy carrier. Two locations with different climatic conditions (cold continental and
southern Europe) were considered to study the influence of resource availability on the resulting energy mix. The
main impact of electric vehicles is due to the emergency charging, which increases peak demand by 50%. Nonprogrammable
renewables have the lowest cost, but require expensive storage to balance the grid. In continental
climate (Northern Italy), hydro can provide near-base load generation, minimizing the need for storage and
achieving a minimum LCOE of 0.1464 USD/kWh. The good solar energy at a low latitude location (Southern
Italy) allows the CSP system to be exploited where the integrated thermal storage reduces the demand for highcost
electric storage: the best solution achieves an LCOE of 0.1890 USD/kWh, comparable to the cost of the
Italian market.
Tipologia CRIS:
1.1.01 Articoli/Saggi in rivista - Journal Articles/Essays
Elenco autori:
Ghirardi, Elisa; Brumana, Giovanni; Franchini, Giuseppe; Aristolao, N.; Vedovati, G.
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