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Technological advances are contributing to the search for highly efficient energy designs, and increasing interest in compact heat exchangers. Indeed, small channel diameters determine large heat transfer coefficients and condition a significant heat transfer area about the overall volume of the heat exchanger, as well as a smaller amount of refrigerant flowing in the system. Nevertheless, the operat-ing stability and energy efficiency of compact heat exchangers are influenced by two-phase flow structures, which depend on thermal flow parameters. Knowledge of the structures formed during the condensation process is therefore essential for optimising the operation of re-frigeration and air-conditioning equipment. This article presents the results from experimental studies of the HFE7100 refrigerant, from the hydrofluorocarbon group, condensation process in mini-channels with hydraulic diameters dh = 2.0 mm, 1.2 mm, 0.8 mm and 0.5 mm. Thermal flow characteristics were determined, and the forming structures of two-phase flow were recorded. The results of visualisation were subjected to morphological image analysis, based on a special algorithm written in MATLAB software. The algorithm makes it possi-ble to determine the void fraction, which is necessary for calculating the vapour quality, as well as the area of vapour bubbles and their number, directionality and length along the x- and y-axes.
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Tom
Strony
60--67
Opis fizyczny
Bibliogr. 20 poz., rys., tab., wykr.
Twórcy
autor
autor
autor
- Faculty of Mechanical Engineering, Department of Energy Engineering, Koszalin University of Technology, ul. Racławicka 15-17, 75-620 Koszalin, Poland
Bibliografia
- 1. Wang Z, Xu Z, Luo L, Xia X, Peng D, Li X. Experimental investigation of condensation pressure drop of zeotropic refrigerant/oil mixtures in plate heat exchanger. International Journal of Refrigeration 2023; 149: 192-203. https://doi.org/10.1016/j.ijrefrig.2022.12.026
- 2. Mikielewicz D, Andrzejczyk R, Jakubowska B, Mikielewicz J. Com-parative study of heat transfer and pressure drop during flow boiling and flow condensation in minichannels. Archives of Thermodynam-ics. 2014; 35: 17–37. https://doi.org/10.2478/aoter-2014-0019
- 3. Jige D, Kikuchi S, Eda H, Inoue N, Koyama S. Two-phase flow characteristics of R32 in horizontal multiport minichannels. Flow vis-ualization and development of flow regime map. International Journal of Refrigeration 2018; 95: 156–164 https://doi.org/10.1016/j.ijrefrig.2018.09.005
- 4. Doretti L, Zilio C, Mancin S, Cavallini A. Condensation flow patterns inside plain and microfin tubes: A review. International Journal of Re-frigeration. 2013; 36: 567–587. https://doi.org/10.1016/j.ijrefrig.2012.10.021
- 5. Xiao J, Hrnjak P. A flow regime map for condensation in macro and micro tubes with non-equilibrium effects taken into account. Int J Heat Mass Transf. 2019; 130: 893–900. https://doi.org/10.1016/j.ijheatmasstransfer.2018.10.081
- 6. Soligo G, Roccon A., Soldati A. Mass-conservation-improved phase field methods for turbulent multiphase flow simulation. Acta Mech. 2019; 230: 683–696. https://doi.org/10.1007/s00707-018-2304-2
- 7. Coleman JW, Garimella S. Two-phase flow regimes in round, square and rectangular tubes during condensation of refrigerant R134a. In-ternational Journal of Refrigeration 2003; 26: 117–128. https://doi.org/10.1016/S0140-7007(02)00013-0
- 8. Fronk BM, Garimella S. In-tube condensation of zeotropic fluid mixtures: A review. International Journal of Refrigeration 2013; 36: 534–561. https://doi.org/10.1016/j.ijrefrig.2012.11.030
- 9. Garimella Srinivas FBM. Encyclopedia of two-phase heat transfer and flow I. Fundamentals and Methods II. Condensation heat trans-fer. World Scientific 2016
- 10. Dziubiński M, Prywer J. Mechanika płynów dwufazowych. Wydawnic-two Naukowo Techniczne, Warszawa 2009
- 11. Sikora M. Modelowanie struktur przepływu dwufazowego podczas skraplania w minikanałach 2020
- 12. Ligus G, Zając D, Masiukiewicz M, Anweiler S. A New Method of Selecting the Airlift Pump Optimum Efficiency at Low Submergence Ratios with the Use of Image Analysis. Energies (Basel) 2019; 12: 735. https://doi.org/10.3390/en12040735
- 13. El Hajal J, Thome JR, Cavallini A. Condensation in horizontal tubes, part 1: two-phase flow pattern map. Int J Heat Mass Transf. 2003; 46: 3349–3363. https://doi.org/10.1016/S0017-9310(03)00139-X
- 14. Coleman JW, Garimella S. Characterization of two-phase flow pat-terns in small diameter round and rectangular tubes. Int J Heat Mass Transf. 1999; 42: 2869–2881. https://doi.org/10.1016/S0017-9310(98)00362-7
- 15. Bohdal T, Sikora M, Widomska K, Radchenko AM. Investigation of flow structures during HFE-7100 refrigerant condensation. Archives of Thermodynamics 2016; 36: 25–34. https://doi.org/10.1515/aoter-2015-0030
- 16. Al-Zaidi AH, Mahmoud MM., Karayiannis TG. Condensation flow patterns and heat transfer in horizontal microchannels. Exp Therm Fluid Sci. 2018; 90:153–173. https://doi.org/10.1016/j.expthermflusci.2017.09.009
- 17. Xiao J, Hrnjak P. A flow regime map for condensation in macro and microtubes with non-equilibrium effects taken into account. Int J Heat Mass Transf. 2019. https://doi.org/10.1016/j.ijheatmasstransfer.2018.10.081
- 18. Sikora M, Bohdal T. Heat and flow investigation of NOVEC649 refrigerant condensation in pipe minichannels. Energy 2020. https://doi.org/10.1016/j.energy.2020.118447
- 19. Sikora M, Bohdal T, Formela K. Experimental Study of HFE 7000 Refrigerant Condensation in Horizontal Pipe Minichannels. Materials. 2021; 14: 6886. https://doi.org/10.3390/ma14226886
- 20. Chen Y, Gao H, Liu H, Chen D, Jiang J., Ma Z. Experimental investi-gation on condensation regimes and transition boundary during bub-ble condensation in narrow rectangular channel. International Journal of Thermal Sciences 2023; 188: 108212 https://doi.org/10.1016/j.ijthermalsci.2023.108212
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ca03bdf6-5982-4756-862e-d4492db74464