All Outputs (2)

Development of a novel platform for the optimal design, sizing and energy management of grid-integrated hybrid photovoltaic-hydrogen energy systems. (2025)
Thesis
ATTEYA, A. 2025. Development of a novel platform for the optimal design, sizing and energy management of grid-integrated hybrid photovoltaic-hydrogen energy systems. Robert Gordon University, PhD thesis. Hosted on OpenAIR [online]. Available from: https://doi.org/10.48526/rgu-wt-2935027

With the World moving towards the Net-Zero energy transition, there is an increasing demand to scale-up the investment in renewable energy systems. To enable the increased integration of intermittent renewables such as wind and solar energies, while... Read More about Development of a novel platform for the optimal design, sizing and energy management of grid-integrated hybrid photovoltaic-hydrogen energy systems..

Multi-objective dynamic system model for the optimal sizing and real-world simulation of grid-connected hybrid photovoltaic-hydrogen (PV-H2) energy systems. (2025)
Journal Article
ATTEYA, A.I., ALI, D. and SELLAMI, N. 2025. Multi-objective dynamic system model for the optimal sizing and real-world simulation of grid-connected hybrid photovoltaic-hydrogen (PV-H2) energy systems. Energies [online], 18(3), article number 578. Available from: https://doi.org/10.3390/en18030578

Hybrid renewable-hydrogen energy systems offer a promising solution for meeting the globe's energy transition and carbon neutrality goals. This paper presents a new multi-objective dynamic system model for the optimal sizing and simulation of hybrid... Read More about Multi-objective dynamic system model for the optimal sizing and real-world simulation of grid-connected hybrid photovoltaic-hydrogen (PV-H2) energy systems..