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    CO2 transcritical vapor compression cycle with thermoelectric subcooler

    New search for: Schoenfield, Jonathan
    New search for: Hwang, Yunho
    New search for: Radermacher, Rienhard

    In this article, the integration of two different cooling technologies: thermoelectric (TE) cooling and the vapor compression cycle (VCC), is investigated to enhance the performance of the latter. In the integrated system, the TE cooler is utilized as a subcooler of the VCC condenser or gas cooler. In this integration, the TE subcooler is operated at a small temperature lift so that it operates at higher efficiency than that of the baseline VCC efficiency while providing the additional subcooling. These two factors result in the improved capacity and coefficient of performance (COP) of the entire system. To prove the concept, a TE subcooler was designed and fabricated to subcool the CO2 exiting the gas cooler of a transcritical VCC. A 3.3% improvement in COP with a TE subcooler was experimentally demonstrated with a corresponding 7.9% capacity increase. A 18.7% capacity increase was demonstrated at a comparable COP to the baseline system.

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    CO2 transcritical vapor compression cycle with thermoelectric subcooler

    New search for: Schoenfield, Jonathan
    New search for: Hwang, Yunho
    New search for: Radermacher, Rienhard

    In this article, the integration of two different cooling technologies: thermoelectric (TE) cooling and the vapor compression cycle (VCC), is investigated to enhance the performance of the latter. In the integrated system, the TE cooler is utilized as a subcooler of the VCC condenser or gas cooler. In this integration, the TE subcooler is operated at a small temperature lift so that it operates at higher efficiency than that of the baseline VCC efficiency while providing the additional subcooling. These two factors result in the improved capacity and coefficient of performance (COP) of the entire system. To prove the concept, a TE subcooler was designed and fabricated to subcool the CO2 exiting the gas cooler of a transcritical VCC. A 3.3% improvement in COP with a TE subcooler was experimentally demonstrated with a corresponding 7.9% capacity increase. A 18.7% capacity increase was demonstrated at a comparable COP to the baseline system.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    CO2 transcritical vapor compression cycle with thermoelectric subcooler

    New search for: Schoenfield, Jonathan
    New search for: Hwang, Yunho
    New search for: Radermacher, Rienhard

    In this article, the integration of two different cooling technologies: thermoelectric (TE) cooling and the vapor compression cycle (VCC), is investigated to enhance the performance of the latter. In the integrated system, the TE cooler is utilized as a subcooler of the VCC condenser or gas cooler. In this integration, the TE subcooler is operated at a small temperature lift so that it operates at higher efficiency than that of the baseline VCC efficiency while providing the additional subcooling. These two factors result in the improved capacity and coefficient of performance (COP) of the entire system. To prove the concept, a TE subcooler was designed and fabricated to subcool the CO2 exiting the gas cooler of a transcritical VCC. A 3.3% improvement in COP with a TE subcooler was experimentally demonstrated with a corresponding 7.9% capacity increase. A 18.7% capacity increase was demonstrated at a comparable COP to the baseline system.

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    Title:

    CO2 transcritical vapor compression cycle with thermoelectric subcooler

    Contributors:

    Schoenfield, Jonathan (author) / Hwang, Yunho (author) / Radermacher, Rienhard (author)

    Published in:

    HVAC&R Research ; 18 ; 297-311

    Publication date:

    2012-06-01

    Size:

    15 pages

    ISSN:

    1078-9669 , 1938-5587

    DOI:

    https://doi.org/10.1080/10789669.2012.625348

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

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