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Storage and Flexibility Modelling: D2.4 Final Report

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Abstract:

This project will develop energy system modelling capability to increase understanding of the role of energy storage and system flexibility in the future energy system. The modelling capability will provide a whole systems view of the different services that could be provided and at which points in the energy system they are most appropriate. Management consultancy Baringa Partners are delivering this new project to develop the capability to improve understanding with regards the future role of energy storage and the provision of cross-vector system flexibility within the context of the overall UK energy system.

The Storage and Flexibility Model is an AIMMS based model that provides a framework to allow techno-economic analysis of the role of storage and other means of energy system flexibility across multiple energy vectors at multiple levels of the energy system. This deliverable provides the project final report which summarises:

  • Scenario analysis using the modelling framework and data developed during the project
  • Identification and assessment of 3 case-study examples of private sector storage investment and potential generic policy options
  • Wider qualitative assessment of risks/opportunities for storage deployment associated with the analysis undertaken
  • The report will also describe how the scenarios have been constructed and describe the underlying model framework insofar as it is necessary to support the interpretation of its outputs.

Publication Year:

2017

Publisher:

ETI

Author(s):

Greenleaf, J. and Humphry, L.

Language:

English

File Type:

application/pdf

File Size:

2855823 B

Rights:

Energy Technologies Institute Open Licence for Materials

Rights Overview:

The Energy Technologies Institute is making this document available to use under the Energy Technologies Institute Open Licence for Materials. Please refer to the Energy Technologies Institute website for the terms and conditions of this licence. The Information is licensed "as is" and the Energy Technologies Institute excludes all representations, warranties, obligations and liabilities in relation to the Information to the maximum extent permitted by law. The Energy Technologies Institute is not liable for any errors or omissions in the Information and shall not be liable for any loss, injury or damage of any kind caused by its use. This exclusion of liability includes, but is not limited to, any direct, indirect, special, incidental, consequential, punitive, or exemplary damages in each case such as loss of revenue, data, anticipated profits, and lost business. The Energy Technologies Institute does not guarantee the continued supply of the Information. Notwithstanding any statement to the contrary contained on the face of this document, the Energy Technologies Institute confirms that it has the right to publish this document.

Further information:

N/A

Region:

United Kingdom

Publication Type:

Technical Report

Theme(s):

Energy Storage and Distribution