How pressure affects costs of power conversion machinery in compressed air energy storage; Part I: compressors and expanders
- Zahra Baniamerian,
- Seamus Garvey,
- James Rouse,
- Bruno Cárdenas,
- ,
- Edward R. Barbour
- University of Nottingham,
- Loughborough University,
- University of Leicester
Open access
Sustainable Development Goals
- SDG 7 Affordable and Clean Energy
Abstract
This study addresses a critical economic aspect in compressed air energy storage that has not been discussed much in existing literature: the impact of operating pressure on machinery capital cots. It aims to answer whether the cost per unit of power for power conversion systems changes with the maximum storage pressure. Considering that higher storage pressures are associated with greater energy density, enhanced energy storage capabilities and improved system efficiency. This paper helps clarify uncertainties in initial cost estimations for power-generation plants. Effects of operating pressure on the components and overall sizes and consequently costs of power conversion machinery are individually investigated in two parts. Part I encompasses the compressor and expanders, and part II comprehensively discusses the effects of the operating pressure on the costs of heat exchangers. The analysis employs a conceptual engineering approach, revealing that higher intake pressure reduces overall compressor/expander size, leading to cost savings. Additionally, increasing the number of compression stages for higher storage pressures enhances exergy storage cost-effectiveness. To establish an advanced adiabatic CAES plant with a storage pressure of 200 bar instead of 50 bar, there is potential for a 6 % reduction in $/kW expenditure.
Publication Information
Output type
Original language
EnglishArticle number
111791Journal (Volume, Issue Number)
Journal of Energy Storage (Volume 89)Publication milestones
- Accepted/In press - 19/04/2024
- Published - 25/04/2024
Publication status
External Publication IDs
- Scopus: 85191394929
