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Centrifugal compressor design analysis for large-scale transcritical carbon dioxide heat pumps

Implementation of heat pumps can be an efficient solution to de-carbonize heating systems. In this study, centrifugal compressor designs for large-scale transcritical carbon dioxide heat pumps were investigated by connecting a cycle analysis with a compressor analysis. The heating capacity was varie...

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Published in:	Applied thermal engineering 2024-12, Vol.257, p.124355, Article 124355
Main Authors:	Uusitalo, Antti, Jaatinen-Värri, Ahti, Turunen-Saaresti, Teemu
Format:	Article
Language:	English
Subjects:	Centrifugal compressor Heat upgrading Supercritical fluid Transcritical cycle Working fluid
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creator	Uusitalo, Antti Jaatinen-Värri, Ahti Turunen-Saaresti, Teemu
description	Implementation of heat pumps can be an efficient solution to de-carbonize heating systems. In this study, centrifugal compressor designs for large-scale transcritical carbon dioxide heat pumps were investigated by connecting a cycle analysis with a compressor analysis. The heating capacity was varied from 1 MW to 20 MW and 1 to 4 compressor stages were used. The effect of compressor specific speed and heat pump capacity on compressor main dimensions, rotational speed, and isentropic efficiency were investigated. Generally, centrifugal compressors can be considered as an efficient and compact compressor technology for large-scale carbon dioxide heat pumps. Stage efficiencies from 70 % to over 90 % were predicted and compressor sizes were compact with respect to the compressor capacity, having impeller dimensions ranging from 40 mm to above 350 mm depending on the heat pump capacity. The use of multistage compressors reduced the shaft rotational speeds, that were generally observed to be high with respect to the compressor power level. In addition, the use of multistage configurations resulted in slightly higher impeller dimensions when compared to single-stage designs. Pressure losses between the compressor stages, tip clearance heights, and stage pressure ratios were observed to have notable effects on the compressor design and efficiency. •Large-scale transcritical CO2 heat pump was studied.•Detailed centrifugal compressor design and loss analysis was carried out.•Centrifugal compressors show feasible geometries and high performance in large CO2 heat pumps.•Investigated compressors require high rotational speeds.•System capacity and number of compressor stages have high effect on design.
doi_str_mv	10.1016/j.applthermaleng.2024.124355
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source	ScienceDirect Freedom Collection 2022-2024
subjects	Centrifugal compressor Heat upgrading Supercritical fluid Transcritical cycle Working fluid
title	Centrifugal compressor design analysis for large-scale transcritical carbon dioxide heat pumps
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