[1] Islam S., Islam M.S., Abedin M.Z.: Review on heat transfer enhancement by louvered fin. Int. J. Eng. Mater. Manufact. 6(2021), 60–80.
[2] Muszynski T., Kozieł S.M.: Parametric study of fluid flow and heat transfer over louvered fins of air heat pump evaporator. Arch. Thermodyn. 37(2016), 3, 45–62.
[3] Dodiya K., Bhatt N., Lai F.: Louvered fin compact heat exchanger: a comprehensive review. Int. J. Amb. Energ. (2020).
[4] Wan R., Wang Y., Kavtaradze R., Ji H., He X.: Research on the air-side thermal hydraulic performance of louvered fin and flat tube heat exchangers under low-pressure environment. Exp. Heat Transfer 33(2020), 1, 81–99.
[5] Gunnasegaran P., Shuaib N.H., Abdul Jalal M.F.: The effect of geometrical parameters on heat transfer characteristics of compact heat exchanger with louvered fins. ISRN Thermodyn. (2012), 1–10.
[6] Djamal H.D., Woon Q.Y., Suzairin M.S., Hisham Amirnordin S.: Effects of geometrical parameters to the performance of louvered fin heat exchangers. Appl. Mech. Mater. 773-774(2015), 398–402.
[7] Amirnordin S.H., Didane H.D., Norani Mansor M., Khalid A, Suzairin M.S., Raghavan V.R.: Pressure drop and heat transfer characteristics of louvered fin heat exchangers. Appl. Mech. Mater. 465-466(2014), 500–504.
[8] Chan Kang H., Jun G.W.: Heat transfer and flow resistance characteristics of louver fin geometry for automobile applications. J. Heat Transfer. 133(2011), 1–6.
[9] Okbaz A., Olcay A.B., Cellek M.S., Pinarbasi A.: Computational investigation of heat transfer and pressure drop in a typical louver fin-and-tube heat exchanger for various louver angles and fin pitches. EPJ Web Conf. 143(2017), 02084.
[10] Park J.S., Kim J., Lee K.S.: Thermal and drainage performance of a louvered fin heat exchanger according to heat exchanger inclination angle under frosting and defrosting conditions. Int. J. Heat Mass Transf. 108(2017), 1335–1339.
[11] Liu X., Chen H., Wang X., and Kefayati G.: Study on surface condensate water removal and heat transfer performance of a minichannel heat exchanger. Energies 13(2020), 5, 1065
[12] Saleem A., Kim M.H.: CFD analysis on the air-side thermal-hydraulic performance of multi-louvered fin heat exchangers at low Reynolds numbers. Energies 10(2017), 6, 1–24.
[13] Bohdal T., Charun H., Sikora M.: Heat transfer during condensation of refrigerants in tubular minichannels. Arch. Thermodyn. 33(2012), 2, 3–22.
[14] ASHRAE: ANSI/ASHRAE Standard 41.2-1987: Standard Methods for Air Velocity and Airflow Measurement (2018).
[15] Manual Ansys-CFX, Release 2020 R2.
http://www.ansys.com (accessed 15 July 2020).
[16] Jasinski P.B., Kowalczyk M.J., Romaniak A., Warwas B., Obidowski D., Gutkowski A.: Investigation of thermal-flow characteristics of pipes with helical micro-fins of variable height. Energies 14(2021), 8, 2048.
[17] Kang, Hie-Chan & Jun, Gil.: Heat transfer and flow resistance characteristics of louver fin geometry for automobile applications. J. Heat Transf. 133 (2011), 101802.