Miss. AYATTE ATTEYA a.atteya@rgu.ac.uk
Research Student
Developing a capacity sizing and energy management model for a hybrid photovoltaic-hydrogen grid-connected building scenario.
Atteya, Ayatte I.; Ali, Dallia; Hossain, Mamdud
Authors
Dr Dallia Ali d.ali@rgu.ac.uk
Senior Lecturer
Professor Mamdud Hossain m.hossain@rgu.ac.uk
Professor
Abstract
The admission of renewable energy systems into the grid is subject to significant variability due to their intermittency, requiring central generations to cover any transient variation between renewable power input and consumer demand. To allow supporting the intermittency of renewables and help realizing the 2050 Net Zero goal, adequate energy storage systems are required. This talk will explore the development of a capacity sizing and energy management modelling of a hybrid Photovoltaic-Hydrogen grid-connected building scenario towards decarbonizing the building sector. The capacity of the proposed hybrid system components is appropriately sized, and their energy management operation was accordingly modelled with the utility grid to ensure a reliable system operation. Results have indicated the potential of the sized hydrogen energy storage system in increasing the contribution of green energy supply to grid-connected buildings, while improving the utilization of the sized PV system capacity and maintaining a successful energy balance between renewable power generation and load consumption.
Citation
ATTEYA, A.I., ALI, D. and HOSSAIN, M. 2022. Developing a capacity sizing and energy management model for a hybrid photovoltaic-hydrogen grid-connected building scenario. Presented at the 2022 All-energy exhibition and conference: low carbon heating and cooling, 11-12 May 2022, Glasgow, UK.
Presentation Conference Type | Presentation / Talk |
---|---|
Conference Name | 2022 All-energy exhibition and conference: low carbon heating and cooling |
Start Date | May 11, 2022 |
End Date | May 12, 2022 |
Deposit Date | Oct 6, 2022 |
Publicly Available Date | Dec 8, 2022 |
Peer Reviewed | Peer Reviewed |
Keywords | Green hydrogen energy storage; PV system capacity; H2 fuel cells |
Public URL | https://rgu-repository.worktribe.com/output/1769300 |
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