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All Outputs (14)

Developing a thermally compensated electrolyser model coupled with pressurised hydrogen storage for modelling the energy efficiency of hydrogen energy storage systems and identifying their operation performance issues. (2016)
Journal Article
ALI, D., GAZEY, R. and AKLIL, D. 2016. Developing a thermally compensated electrolyser model coupled with pressurised hydrogen storage for modelling the energy efficiency of hydrogen energy storage systems and identifying their operation performance issues. Renewable and sustainable energy reviews [online], 66, pages 27-37. Available from: https://doi.org/10.1016/j.rser.2016.07.067

This paper proposes a thermally compensated electrolyser model coupled with a Pressurised Hydrogen Storage model for modelling Renewable Hydrogen Energy Storage Systems needed to support the uptake of renewable energy sources (RES) integration into t... Read More about Developing a thermally compensated electrolyser model coupled with pressurised hydrogen storage for modelling the energy efficiency of hydrogen energy storage systems and identifying their operation performance issues..

Solar-hydrogen energy storage for enabling Qatar solar-grid integration and eco-friendly transportation. (2015)
Presentation / Conference
ALI, D., AKLIL, D. and GAZEY, R. 2015. Solar-hydrogen energy storage for enabling Qatar solar-grid integration and eco-friendly transportation. Presented at the 4th TAMUQ (Texas A and M University at Qatar) annual research and industry forum 2015, 2-3 March 2015, Doha, Qatar.

Qatar has drawn up an ambitious plan to install 1.8 GW of solar capacity by 2020. In the transport sector, green hydrogen produced from solar PV offers one of the best opportunities to reduce greenhouse gas emissions and significantly reduce depende... Read More about Solar-hydrogen energy storage for enabling Qatar solar-grid integration and eco-friendly transportation..

Sizing hybrid green hydrogen energy generation and storage systems (HGHES) to enable an increase in renewable penetration for stabilising the grid. (2014)
Thesis
GAZEY, R.N. 2014. Sizing hybrid green hydrogen energy generation and storage systems (HGHES) to enable an increase in renewable penetration for stabilising the grid. Robert Gordon University, PhD thesis.

A problem that has become apparently growing in the deployment of renewable energy systems is the power grids inability to accept the forecasted growth in renewable energy generation integration. To support forecasted growth in renewable generation i... Read More about Sizing hybrid green hydrogen energy generation and storage systems (HGHES) to enable an increase in renewable penetration for stabilising the grid..

Hybrid hydrogen energy production and storage system model as a tool for real-world systems integrity assessment. (2013)
Presentation / Conference
GAZEY, R., ALI, D. and AKLIL, D. 2013. Hybrid hydrogen energy production and storage system model as a tool for real-world systems integrity assessment. Presented at the 10th Hypothesis anniversary conference 2013, 11-12 June 2013, Edinburgh, UK.

Within Scotland ambitious national targets are focused on achieving renewable generation of 100% by 2020. However, existing electrical infrastructure is becoming increasingly constrained.

Modelling hydrogen energy technology to facilitate increased renewable penetration. (2013)
Presentation / Conference
GAZEY, R., ALI, D. and AKLIL, D. 2013. Modelling hydrogen energy technology to facilitate increased renewable penetration. Presented at the 2nd ETP (Energy Technology Partnership) annual conference 2013, 16-17 April 2013, Edinburgh, UK.

Started on the 01st February 2011, this research project has developed models for the innovative applications of Hydrogen (H2) production, storage and end-use technologies to facilitate the planned increase of renewable generation into existing elect... Read More about Modelling hydrogen energy technology to facilitate increased renewable penetration..

Smart grid operation while integrating photovoltaic through green hydrogen technology. (2013)
Presentation / Conference
GAZEY, R., ALI, A. and AKLIL, D. 2013. Smart grid operation while integrating photovoltaic through green hydrogen technology. Presented at the 2nd TAMUQ (Texas A and M University at Qatar) annual research and industry forum 2013, 4-5 March 2013, Doha, Qatar.

Environmental pressures coupled with high fossil fuel prices have led to the rapid penetration of electricity generation from Renewable Energy Sources (RES). Because of the rapid RES penetration, the stability of grid energy infrastructures are now b... Read More about Smart grid operation while integrating photovoltaic through green hydrogen technology..

Stabilising the grid through use of energy storage. (2012)
Presentation / Conference
GAZEY, R., ALI, D. and AKLIL, D. 2012. Stabilising the grid through use of energy storage. Presented at 10th IET (Institution of Engineering and Technology) International conference on AC and DC power transmission 2012 (ACDC 2012), 4-6 December 2012, Birmingham, UK.

A low carbon economy is now a central policy objective for the UK Government, with renewable energy as one of the key delivery mechanisms. Due to the intermittent nature of renewable energy generation, the UK's renewable energy targets will be diffic... Read More about Stabilising the grid through use of energy storage..

Real world renewable hydrogen transport. (2012)
Journal Article
GAZEY, R., ALI, D. and AKLIL, D. 2012. Real world renewable hydrogen transport. Journal of technology innovations in renewable energy [online] 1(1), pages 14-22. Available from: https://doi.org/10.6000/1929-6002.2012.01.01.2

Hydrogen represents an excellent energy storage option as it can act as both a short and long-term energy store. As the UK Government is strategically moving the UK towards a low carbon economy, hydrogen can play an important role as a solution to ma... Read More about Real world renewable hydrogen transport..

Increasing the penetration of renewables by stabilizing the grid through the use of energy storage; fuel cell technologies. (2012)
Presentation / Conference
GAZEY, R., ALI, D. and AKLIL, D. 2012. Increasing the penetration of renewables by stabilizing the grid through the use of energy storage; fuel cell technologies. Presented at the 2012 Energy Technology Partnership (ETP) annual conference, 21-23 March 2012, Glasgow, UK.

Renewable energy represents a small fraction of the total power generation profile in use today. However, recent global climate change policies have lead to significant increases of electricity generation from Renewable Energy Sources (RES). Within S... Read More about Increasing the penetration of renewables by stabilizing the grid through the use of energy storage; fuel cell technologies..

Enabling the uptake of renewables through economical hydrogen energy storage systems: studentship case study. (2012)
Presentation / Conference
GAZEY, R., ALI, D., AKLIL, D. and FINNEY, S. 2012. Enabling the uptake of renewables through economical hydrogen energy storage systems: studentship case study. Presented at the 2012 Energy Technology Partnership (ETP) annual conference, 21-23 March 2012, Glasgow, UK.

Collaboration between academic research, teams of industry professionals and research students on the research project 'Renewable H2 Energy storage systems for enabling projected increase of renewables onto electrical power grids', enabled all invol... Read More about Enabling the uptake of renewables through economical hydrogen energy storage systems: studentship case study..

Techno-economic assessment of energy storage systems for enabling projected increase of renewables onto electrical power grids. (2011)
Conference Proceeding
GAZEY, R., ALI, D. and AKLIL, D. 2011. Techno-economic assessment of energy storage systems for enabling projected increase of renewables onto electrical power grids. In Proceedings of IET (Institution of Engineering and Technology) Renewable power generation conference 2011 (RPG 2011), 6-8 September 2011, Glasgow, UK. London: IET [online], session 9, article 9.2. Available from: https://doi.org/10.1049/cp.2011.0135

Hydrogen is seen by many industry leaders as an energy vector that has the potential to provide essential energy stores required to facilitate the wide spread connection of renewable energy inputs. The techno economic assessment of using hydrogen as... Read More about Techno-economic assessment of energy storage systems for enabling projected increase of renewables onto electrical power grids..

Economic assessment of energy storage systems. (2011)
Presentation / Conference
GAZEY, R., ALI, D., AKLIL, D. and FINNEY, S. 2011. Economic assessment of energy storage systems. Presented at the 2011 IET (Institution of Engineering and Technology) Renewable power generation conference (IET RPG 2011), 6-8 September 2011, Edinburgh, UK.

The Scottish Government's ambitious national target is to achieve renewable generation of 80% by the year 2020. Existing electrical infrastructure in becoming increasingly constrained. Electrolysis as a network deferrable balancing load has the poten... Read More about Economic assessment of energy storage systems..

Hydrogen Office: modelling an energy storage system. (2011)
Presentation / Conference
GAZEY, R., ALI, A., AKLIL, D. and FINNEY, S. 2011. Hydrogen office: modelling an energy storage system. Presented at the 2011 All energy conference and exhibition: power storage: the holy grail, 18-20 May 2011, Aberdeen, UK.

United States Energy Information Administration (EIA) predict global renewable energy output is to increase by over 50% (excluding bio-fuels) between 2010 and 2023. Scotland's ambitious targets are focused on achieving renewable generation of 80% by... Read More about Hydrogen Office: modelling an energy storage system..

Increasing the penetration of renewables by stabilizing the grid through the use of energy storage: fuel cell technologies. (2011)
Presentation / Conference
GAZEY, R., ALI, D. and AKLIL, D. 2011. Increasing the penetration of renewables by stabilizing the grid through the use of energy storage; fuel cell technologies. Presented at the 2011 Institute for Innovation, Design and Sustainability (IDEAS) annual conference, February 2011, Aberdeen, UK.

One of the main solutions to increase the penetration of renewables is to provide the ability to store energy. Electrical power generated by renewables (such as wind, hydro, solar) would be stored at times when renewable power production is high. The... Read More about Increasing the penetration of renewables by stabilizing the grid through the use of energy storage: fuel cell technologies..