References

  1. C.Y. Zhao, P.H. Jin, W.T. Ji, W.Q. Tao, Heat transfer correlation of the falling film evaporation on a single horizontal smooth tube, Appl. Therm. Eng., 103 (2016) 177–186.
  2. C. Zhao, W. Ji, P. Jin, Y. Zhong, W. Tao, Hydrodynamic behaviors of the falling film flow on a horizontal tube and construction of new film thickness correlation, Int. J. Heat Mass Transf., 119 (2018) 564–576.
  3. Y.T. Kang, H. Hong, Y.S. Lee, Experimental correlation of falling film condensation on enhanced tubes with HFC134a; lowfin and Turbo-C tubes, Int. J. Refrig.-Rev. Int. Froid, 30 (2007) 805–811.
  4. H. Hou, Q. Bi, X. Zhang, Numerical simulation and performance analysis of horizontal-tube falling-film evaporators in seawater desalination, Int. Commun. Heat Mass Transf., 39 (2012) 46–51.
  5. G. Ji, J. Wu, Y. Chen, G. Ji, Asymmetric distribution of falling film solution flowing on hydrophilic horizontal round tube, Int. J. Refrig.-Rev. Int. Froid, 78 (2017) 83–92.
  6. F. Wunder, S. Enders, R. Semiat, Numerical simulation of heat transfer in a horizontal falling film evaporator of multiple-effect distillation, Desalination, 401 (2017) 206–229.
  7. A. Charogiannis, F. Denner, B.G.M.v. Wachem, S. Kalliadasis, C.N. Markides, Detailed hydrodynamic characterization of harmonically excited falling-film flows: A combined experimental and computational study, Phys. Rev. Fluids, 2 (2017) 014002.
  8. C.N. Markides, R. Mathie, A. Charogiannis, An experimental study of spatiotemporally resolved heat transfer in thin liquidfilm flows falling over an inclined heated foil, Int. J. Heat Mass Transf., 93 (2016) 872–888.
  9. O.A. Kabov, B. Scheid, I.A. Sharina, J.C. Legros, Heat transfer and rivulet structures formation in a falling thin liquid film locally heated, Int. J. Therm. Sci., 41 (2002) 664–672.
  10. A. Schagen, M. Modigell, Local film thickness and temperature distribution measurement in wavy liquid films with a laserinduced luminescence technique, Exp. Fluids, 43 (2007) 209–221.
  11. Q. Qiu, C. Meng, S. Quan, W. Wang, 3-D simulation of flow behaviour and film distribution outside a horizontal tube, Int. J. Heat Mass Transf., 107 (2017) 1028–1034.
  12. W. Li, XiaoYuWu, Z. Luo, ShichuneYao, J. Xu, Heat transfer characteristics of falling film evaporation on horizontal tube arrays, Int. J. Heat Mass Transf., 54 (2011) 1986–1993.
  13. W. Li, X. Wu, Z. Luo, R.L. Webb, Falling water film evaporation on newly-designed enhanced tube bundles, Int. J. Heat Mass Transf., 54 (2011) 2990–2997.
  14. MarcelChristians, J. RichardThome, Falling film evaporation on enhanced tubes, part 1: Experimental results for pool boiling, onset-of-dryout and falling film evaporation, Int. J. Refrig.-Rev. Int. Froid, 35 (2012).
  15. M. Habert, J.R. Thome, Falling-Film Evaporation on Tube Bundle with Plain and Enhanced Tubes-Part I: Experimental Results, Exp. Heat Transf., 23 (2010) 259–280.
  16. Z. Liu, J. Yi, Enhanced evaporation heat transfer of water and R-11 falling film with the roll-worked enhanced tube bundle, Exp. Therm. Fluid Sci., 25 (2001) 447–455.
  17. L. Lincong, Analysis of Flow and Heat Transfer Enhancement and Experimental Research on Falling Film Evaporation on Horizontal Shaped Tubes, in, Shandong University, Jinan, P.R. China, 2014.
  18. L. Huijun, W. Jiong, Numerical simulation of falling film flow on horizontal circular tubes with drainage strips, Chin J. Power Eng., 36 (2016) 265–269.
  19. X.L. Lei, H.X. Li, Numerical Simulation of the Behavior of Falling Films on Horizontal Plain Tubes, in: AIP Conference Proceedings, Xi’an, China, 2010, pp. 998–1003.
  20. Z. Yang, X.F. Peng, P. Ye, Numerical and experimental investigation of two phase flow during boiling in a coiled tube, Int. J. Heat Mass Transf., 51 (2008) 1003–1016.
  21. D. Ouldhadda, A. Idrissi, M. Asbik, Heat transfer in non-Newtonian falling liquid film on a horizontal circular cylinder, Heat Mass Transfer, 38 (2002) 713–721.
  22. P.J.P. Liu, The Evaporating Falling-Film on Horizontal Tubes, in, University of Wisconsin-Masison, Masison, 1975.
  23. H. Hou, Q. Bi, H. Ma, G. Wu, Distribution characteristics of falling film thickness around a horizontal tube, Desalination, 285 (2012) 393–398.
  24. N. W, Die Oberflachenkondesation des Wasserdamffes the surface condensation of water, Z. Ver. Deutch. Ing., 60 (1916) 541–546.
  25. Q. Chunhua, F. Houjun, X. Yulei, Z. Heli, Numerical simulation and experimental studies on falling film outside elliptical tube: Experimental study, Chem. Ind. Eng., 29 (2012) 43–47.
  26. L. Cunfang, Z. Mengzhu, G. Changming, Heat and mass transfer model of a single-tube falling film absorption outside a low rib horizontal channel tube and its calculation, J. Therm. Energy Power Eng., China, 13 (1998) 351–354.