Projects: Projects for Investigator |
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Reference Number | InnUK/132006/01 | |
Title | Synthetic Methane: Enabling Renewable Energy Storage by Integrating the Electricity and Gas Networks | |
Status | Completed | |
Energy Categories | Other Power and Storage Technologies(Energy storage) 20%; Hydrogen and Fuel Cells(Hydrogen, Hydrogen production) 40%; Renewable Energy Sources(Bio-Energy, Production of other biomass-derived fuels (incl. Production from wastes)) 40%; |
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Research Types | Applied Research and Development 100% | |
Science and Technology Fields | BIOLOGICAL AND AGRICULTURAL SCIENCES (Biological Sciences) 40%; PHYSICAL SCIENCES AND MATHEMATICS (Chemistry) 20%; ENGINEERING AND TECHNOLOGY (Electrical and Electronic Engineering) 40%; |
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UKERC Cross Cutting Characterisation | Not Cross-cutting 75%; Sociological economical and environmental impact of energy (Other sociological economical and environmental impact of energy) 25%; |
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Principal Investigator |
Project Contact No email address given ITM Power (Research) Limited |
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Award Type | Feasibility Study | |
Funding Source | Innovate-UK | |
Start Date | 01 June 2015 | |
End Date | 31 August 2015 | |
Duration | 3 months | |
Total Grant Value | £26,188 | |
Industrial Sectors | ||
Region | Yorkshire & Humberside | |
Programme | Competition Call: 1501_FS_ENRG_ESSCS - Intergrated Supply Chains for Energy Systems. Activity Integrated supply chains for energy systems | |
Investigators | Principal Investigator | Project Contact , ITM Power (Research) Limited (28.448%) |
Other Investigator | Project Contact , School of Applied Sciences, University of Glamorgan (42.103%) Project Contact , Wessex Water Services Ltd (5.728%) Project Contact , BPE Design and Support Limited (19.841%) Project Contact , Wales and West Utilities (3.880%) |
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Web Site | ||
Objectives | ||
Abstract | To realise the potential of renewable energy to reduce greenhouse gas emissions, it is recognised that flexible energy storage is required; ideally for long periods of time, even seasonally. The production of renewable combustible gases such as synthetic methane is an emerging technology that can bridge that gap. Synthetic methane is synthesised by an innovative biomethanation process using hydrogen produced by electrolysis and carbon dioxide from sources such as water treatment, anaerobic digestion and industrial processes. Rapid response electrolysis provides a means of balancing intermittent renewable generation and solving electricity grid frequency problems arising from their increasing use. The UK gas infrastructure has the capacity to store and distribute over three times the energy distributed by the electricity network and represents an underutilised asset for the storage of renewable energy. Synthetic methane production is unique in being able to link the electricity and gas networks as a means of balancing renewable energy production, provide long-term storage of energy, decarbonising the largest source of heat in the UK and improve security of supply.To realise the potential of renewable energy to reduce greenhouse gas emissions, it is recognised that flexible energy storage is required; ideally for long periods of time, even seasonally. The production of renewable combustible gases such as synthetic methane is an emerging technology that can bridge that gap. Synthetic methane is synthesised by an innovative biomethanation process using hydrogen produced by electrolysis and carbon dioxide from sources such as water treatment, anaerobic digestion and industrial processes. Rapid response electrolysis provides a means of balancing intermittent renewable generation and solving electricity grid frequency problems arising from their increasing use. The UK gas infrastructure has the capacity to store and distribute over three times the energy distributed by the electricity network and represents an underutilised asset for the storage of renewable energy. Synthetic methane production is unique in being able to link the electricity and gas networks as a means of balancing renewable energy production, provide long-term storage of energy, decarbonising the largest source of heat in the UK and improve security of supply.To realise the potential of renewable energy to reduce greenhouse gas emissions, it is recognised that flexible energy storage is required; ideally for long periods of time, even seasonally. The production of renewable combustible gases such as synthetic methane is an emerging technology that can bridge that gap. Synthetic methane is synthesised by an innovative biomethanation process using hydrogen produced by electrolysis and carbon dioxide from sources such as water treatment, anaerobic digestion and industrial processes. Rapid response electrolysis provides a means of balancing intermittent renewable generation and solving electricity grid frequency problems arising from their increasing use. The UK gas infrastructure has the capacity to store and distribute over three times the energy distributed by the electricity network and represents an underutilised asset for the storage of renewable energy. Synthetic methane production is unique in being able to link the electricity and gas networks as a means of balancing renewable energy production, provide long-term storage of energy, decarbonising the largest source of heat in the UK and improve security of supply.To realise the potential of renewable energy to reduce greenhouse gas emissions, it is recognised that flexible energy storage is required; ideally for long periods of time, even seasonally. The production of renewable combustible gases such as synthetic methane is an emerging technology that can bridge that gap. Synthetic methane is synthesised by an innovative biomethanation process using hydrogen produced by electrolysis and carbon dioxide from sources such as water treatment, anaerobic digestion and industrial processes. Rapid response electrolysis provides a means of balancing intermittent renewable generation and solving electricity grid frequency problems arising from their increasing use. The UK gas infrastructure has the capacity to store and distribute over three times the energy distributed by the electricity network and represents an underutilised asset for the storage of renewable energy. Synthetic methane production is unique in being able to link the electricity and gas networks as a means of balancing renewable energy production, provide long-term storage of energy, decarbonising the largest source of heat in the UK and improve security of supply.To realise the potential of renewable energy to reduce greenhouse gas emissions, it is recognised that flexible energy storage is required; ideally for long periods of time, even seasonally. The production of renewable combustible gases such as synthetic methane is an emerging technology that can bridge that gap. Synthetic methane is synthesised by an innovative biomethanation process using hydrogen produced by electrolysis and carbon dioxide from sources such as water treatment, anaerobic digestion and industrial processes. Rapid response electrolysis provides a means of balancing intermittent renewable generation and solving electricity grid frequency problems arising from their increasing use. The UK gas infrastructure has the capacity to store and distribute over three times the energy distributed by the electricity network and represents an underutilised asset for the storage of renewable energy. Synthetic methane production is unique in being able to link the electricity and gas networks as a means of balancing renewable energy production, provide long-term storage of energy, decarbonising the largest source of heat in the UK and improve security of supply. | |
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Added to Database | 04/12/15 |