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Results of numerical study of Brayton Pumped Thermal Energy Storage with additional latent storage [dataset] Open Access

Pumped Thermal Energy Storage (PTES) is an increasingly attractive area of research due to its multidimensional advantages over other grid scale electricity storage technologies. This paper built a model and numerically studied the performance of an Argon based Brayton type PTES system. The model was used to optimise total work output and round-trip efficiency of the system. The aspect ratio of the thermal storage tanks and operation of packed bed segmentation have been varied to assess their impacts on round-trip efficiency. Longer and thinner tanks were found to increase efficiency, with the hot tank length affecting system performance to a greater extent than the cold tank. Larger ‘temperature ratio’ in segmentation operation were found to develop higher round-trip efficiency, with higher exit working fluid temperature from hot storage over a shorter duration demonstrating better performance. Key features describing the power output were identified as the duration of the region of maximum power and the steepness of the ‘power front’. To maximise the duration of the high power region and decrease the width of the power front, additional latent heat storage was used, the effect of which on round-trip efficiency was then assessed with predicted efficiencies of up to 80% using isentropic reciprocating compressor/expander architecture, which is close to the theoretically predicted limit.

Descriptions

Resource type

Dataset

Contributors

Creator: Ma, Zhiwei ¹
Creator: Albert, Max ¹
Creator: Bao, Huashan ¹
Creator: Roskilly, Tony

¹ Durham University, UK

Funder

Engineering and Physical Sciences Research Council

Research methods

Simulation

Other description

Keyword

Brayton Pumped Thermal Energy Storage
Numerical study

Subject

Energy storage

Location

Language

English

Cited in

doi:10.1016/j.apenergy.2022.118700

Identifier

ark:/32150/r1jd472w51t
doi:10.15128/r1jd472w51t

Rights

Creative Commons Attribution 4.0 International (CC BY)

Publisher

Durham University

Date Created

File Details

Depositor

Z. Ma

Date Uploaded

7 February 2022, 11:02:45

Date Modified

16 August 2022, 13:08:36

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Characterization

File format: zip (ZIP Format)

Mime type: application/zip

File size: 934731

Last modified: 2022:03:01 14:27:18+00:00

Filename: Data.zip

Original checksum: d6c1a784e22d57955ec7c97dbfd7c39d