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Recent advances of energy recovery expanders in the transcritical CO₂ refrigeration cycle

Zhang, Zhenying / Ma, Yitai / Li, Minxia / Zhao, Li

The intrinsic energy efficiency of a transcritical CO₂ cycle is less than that of the current widely used refrigeration systems. Utilization of an expander to replace the throttle valve for work recovery is considered the most effective way to improve the energy efficiency of the cycle. This article presents a detailed review of recent literature concerning various two-phase expanders in transcritical CO₂ refrigeration cycles. The integration concepts for an expander in a transcritical CO₂ refrigeration cycle are also evaluated.

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Recent advances of energy recovery expanders in the transcritical CO₂ refrigeration cycle

Zhang, Zhenying / Ma, Yitai / Li, Minxia / Zhao, Li

The intrinsic energy efficiency of a transcritical CO₂ cycle is less than that of the current widely used refrigeration systems. Utilization of an expander to replace the throttle valve for work recovery is considered the most effective way to improve the energy efficiency of the cycle. This article presents a detailed review of recent literature concerning various two-phase expanders in transcritical CO₂ refrigeration cycles. The integration concepts for an expander in a transcritical CO₂ refrigeration cycle are also evaluated.

Recent advances of energy recovery expanders in the transcritical CO₂ refrigeration cycle

Zhang, Zhenying / Ma, Yitai / Li, Minxia / Zhao, Li

The intrinsic energy efficiency of a transcritical CO₂ cycle is less than that of the current widely used refrigeration systems. Utilization of an expander to replace the throttle valve for work recovery is considered the most effective way to improve the energy efficiency of the cycle. This article presents a detailed review of recent literature concerning various two-phase expanders in transcritical CO₂ refrigeration cycles. The integration concepts for an expander in a transcritical CO₂ refrigeration cycle are also evaluated.

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Titel:

Recent advances of energy recovery expanders in the transcritical CO₂ refrigeration cycle

Beteiligte:

Zhang, Zhenying (Autor:in) / Ma, Yitai (Autor:in) / Li, Minxia (Autor:in) / Zhao, Li (Autor:in)

Erschienen in:

HVAC&R Research ; 19 ; 376-384

Erscheinungsdatum:

19.05.2013

Format / Umfang:

9 pages

ISSN:

1078-9669 , 1938-5587

DOI:

https://doi.org/10.1080/10789669.2013.784644

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

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