Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube
Regulations and restrictions against high global warming potential (GWP) refrigerants have been introduced to encourage the adoption of environmentally friendly refrigerants and mitigate the environmental impact of the HVAC industry. R448A, a zeotropic blend with a GWP of 1390, has recently been pro...
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MDPI AG
2022-06-01
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Online Access: | https://www.mdpi.com/1996-1073/15/12/4331 |
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author | Hieu Ngoc Hoang Nurlaily Agustiarini Jong Taek Oh |
author_facet | Hieu Ngoc Hoang Nurlaily Agustiarini Jong Taek Oh |
author_sort | Hieu Ngoc Hoang |
collection | DOAJ |
description | Regulations and restrictions against high global warming potential (GWP) refrigerants have been introduced to encourage the adoption of environmentally friendly refrigerants and mitigate the environmental impact of the HVAC industry. R448A, a zeotropic blend with a GWP of 1390, has recently been proposed as a drop-in replacement for R404A and R410A in commercial systems. In this study, the heat transfer coefficient and pressure drop characteristics of R448A within a multiport mini-channel tube were experimentally investigated. The experimental ranges of the mass and heat fluxes were 100 to 500 kg/(m<sup>2</sup>s) and 3–15 kW/m<sup>2</sup>, respectively. Additionally, the range of quality from 0 to 1 was considered at two fixed saturated temperatures of 3 and 6 °C. The heat transfer coefficient increased with mass flux. Under low mass flux condition, the heat flux increased the heat transfer coefficient, but there was no noticeable effect of the saturated temperature on the heat transfer coefficient. At high mass flux, heat flux had no major effect on heat transfer, while a decrease in the saturated temperature was found to increase the heat transfer coefficient. Moreover, the pressure drop increased with an increase in the mass flux and vapor quality, whereas the heat flux did not affect the pressure drop. The heat transfer coefficient and pressure drop performance of R448A was compared with that of R410A inside the same tube. Finally, correlations for heat transfer coefficient and pressure drop were proposed for the prediction of heat transfer coefficient and pressure drop in practical applications. |
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id | doaj.art-9c2444a77daa4b81a771321278003fab |
institution | Directory Open Access Journal |
issn | 1996-1073 |
language | English |
last_indexed | 2024-03-09T23:53:44Z |
publishDate | 2022-06-01 |
publisher | MDPI AG |
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series | Energies |
spelling | doaj.art-9c2444a77daa4b81a771321278003fab2023-11-23T16:29:23ZengMDPI AGEnergies1996-10732022-06-011512433110.3390/en15124331Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel TubeHieu Ngoc Hoang0Nurlaily Agustiarini1Jong Taek Oh2Department of Refrigeration and Air-Conditioning, Graduate School, Chonnam National University, Yeosu 59626, KoreaDepartment of Refrigeration and Air-Conditioning, Graduate School, Chonnam National University, Yeosu 59626, KoreaDepartment of Refrigeration and Air-Conditioning, Chonnam National University, Yeosu 59626, KoreaRegulations and restrictions against high global warming potential (GWP) refrigerants have been introduced to encourage the adoption of environmentally friendly refrigerants and mitigate the environmental impact of the HVAC industry. R448A, a zeotropic blend with a GWP of 1390, has recently been proposed as a drop-in replacement for R404A and R410A in commercial systems. In this study, the heat transfer coefficient and pressure drop characteristics of R448A within a multiport mini-channel tube were experimentally investigated. The experimental ranges of the mass and heat fluxes were 100 to 500 kg/(m<sup>2</sup>s) and 3–15 kW/m<sup>2</sup>, respectively. Additionally, the range of quality from 0 to 1 was considered at two fixed saturated temperatures of 3 and 6 °C. The heat transfer coefficient increased with mass flux. Under low mass flux condition, the heat flux increased the heat transfer coefficient, but there was no noticeable effect of the saturated temperature on the heat transfer coefficient. At high mass flux, heat flux had no major effect on heat transfer, while a decrease in the saturated temperature was found to increase the heat transfer coefficient. Moreover, the pressure drop increased with an increase in the mass flux and vapor quality, whereas the heat flux did not affect the pressure drop. The heat transfer coefficient and pressure drop performance of R448A was compared with that of R410A inside the same tube. Finally, correlations for heat transfer coefficient and pressure drop were proposed for the prediction of heat transfer coefficient and pressure drop in practical applications.https://www.mdpi.com/1996-1073/15/12/4331R448Amultiport mini-channelcorrelationheat transfer coefficientpressure drop |
spellingShingle | Hieu Ngoc Hoang Nurlaily Agustiarini Jong Taek Oh Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube Energies R448A multiport mini-channel correlation heat transfer coefficient pressure drop |
title | Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube |
title_full | Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube |
title_fullStr | Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube |
title_full_unstemmed | Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube |
title_short | Experimental Investigation of Two-Phase Flow Boiling Heat Transfer Coefficient and Pressure Drop of R448A inside Multiport Mini-Channel Tube |
title_sort | experimental investigation of two phase flow boiling heat transfer coefficient and pressure drop of r448a inside multiport mini channel tube |
topic | R448A multiport mini-channel correlation heat transfer coefficient pressure drop |
url | https://www.mdpi.com/1996-1073/15/12/4331 |
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