PINCH POINT ANALYSIS OF GAS COOLERS IN TRANSCRITICAL R1336mzz(Z) HIGH-TEMPERATURE HEAT PUMPS

Research output: Contribution to journalConference articlepeer-review

Abstract

The majority of high-temperature heat pumps (HTHPs) operate subcritical vapor compression cycles, where the maximum sink temperature is limited by the critical temperature of refrigerants. In HTHPs with a sink temperature of ≥ 150℃, transcritical cycles overcome this limitation by rejecting heat in the supercritical regions of refrigerant. Supercritical refrigerants in gas coolers have a large temperature glide and substantial nonlinear variation in specific heat capacity vs. temperature. Closely matching the refrigerant glide temperature and the heat sink temperature profile greatly impacts the heat transfer characteristic of gas coolers and the overall performance of HTHPs. This study conducts a pinch point analysis for the gas cooling process of supercritical R1336mzz(Z) in HTHPs. A finite volume element model of a supercritical R1336mzz(Z) counterflow gas cooler is built and solved. This study evaluates the influences of operating conditions, including inlet and outlet of coolants, refrigerant evaporation temperature and superheat degree, pinch temperature difference, and heat rejection pressure, on the performance of HTHPs. The optimal discharge pressures in gas coolers are proposed for industrial spray dryers in providing drying air at 170℃–210℃. The results of the present study help design gas coolers in transcritical R1336mzz(Z) HTHPs.

Original languageEnglish
Pages (from-to)1347-1357
Number of pages11
JournalProceedings of the Thermal and Fluids Engineering Summer Conference
DOIs
StatePublished - 2024
Event9th Thermal and Fluids Engineering Conference, TFEC 2024 - Hybrid, Corvallis, United States
Duration: Apr 21 2024Apr 24 2024

Funding

This material is based on work supported by the US Department of Energy Office of Science, Industrial Efficiency & Decarbonization Office and the program manager, Dr. Zachary Pritchard. This research used resources from the Building Technologies Research and Integration Center, a US Department of Energy Office of Science User Facility at Oak Ridge National Laboratory.

FundersFunder number
Office of Science
Oak Ridge National Laboratory

    Keywords

    • High-temperature heat pump
    • R1336mzz(Z)
    • discharge pressure
    • gas cooler
    • transcritical cycle

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