Hybrid renewable-hydrogen energy systems and their role in the energy transition.

Ali, Dallia; Atteya, Ayatte I.

Hybrid renewable-hydrogen energy systems and their role in the energy transition.

Ali, Dallia; Atteya, Ayatte I.

Authors

Dr Dallia Ali d.ali@rgu.ac.uk
Senior Lecturer

Miss. AYATTE ATTEYA a.atteya@rgu.ac.uk
Research Student

Abstract

Global energy-related CO2 emissions grew by 1.1% in 2023, increasing 410 Mt to reach a new record of 37.4 Gt. Emissions from coal accounted for more than 65% of the increase in 2023. The global shortfall in hydropower generation due to droughts drove up emissions by around 170 Mt. Between 2019 and 2023, total energy-related emissions increased around 900 Mt. These emissions cause environmental concerns of air pollution (causing health issues), water contamination (affecting humans, animals and plants using it, land degradation or destruction from human activities (this lessens the quality and/or productivity of the land for agriculture, forestation, construction, etc.), climate change (destructive impacts include, but are not limited to, melting of polar ice, change in seasons, new illnesses, and change in the general climate situation), global warming (this results from the fossil fuel GHG emissions), effect on marine life (affecting shellfish and microscopic fish) and depletion of the ozone layer (loss of earth protection from the sun unsafe beams).

Citation

ALI, D. and ATTEYA, A.I. 2024. Hybrid renewable-hydrogen energy systems and their role in the energy transition. Presented at the 2024 Hydrogen accelerator meeting, 22 March 2024, Edinburgh, UK.

Presentation Conference Type	Presentation / Talk
Conference Name	2024 Hydrogen accelerator meeting
Start Date	Mar 22, 2024
Deposit Date	Mar 25, 2024
Publicly Available Date	Mar 25, 2024
Peer Reviewed	Peer Reviewed
Keywords	Hydrogen; Energy transition; Hydrogen energy storage systems; Climate change; Global warming
Public URL	https://rgu-repository.worktribe.com/output/2283494