References
- D. Balaji, R. Velraj, M.V. Ramana Murthy, A review of the role of
passive techniques on heat transfer enhancement of horizontal
tube falling film and flooded evaporators, J. Enhanced Heat
Transfer, 25 (2018) 239–282.
- K.R. Chun, R.A. Seban, Heat transfer to evaporating liquid
films, ASME J. Heat Transfer, 93 (1971) 391–396.
- X.Hu, A.M. Jacobi, The intertube falling film. Part 2. Mode
effects on the sensible heat transfer to a falling liquid film,
J. Heat Transfer, 118 (1996) 626–633.
- S. Shen, X. Mu, G. Liang, X. Liu, Experimental investigation on
heat transfer in horizontal tube falling film evaporator, Desal.
Water Treat., 56 (2014) 1–7.
- F. Tahir, A. Mabrouk, M. Koc, Review on CFD analysis of
horizontal falling film evaporators in multi effect desalination
plants, Desal. Water Treat., 166 (2019) 296–320.
- E.N. Ganic, M.N. Roppo, An experimental study of falling
liquid film breakdown on a horizontal cylinder during heat
transfer, J. Heat Transfer, 102 (1980) 342–346.
- L. Luo, G. Zhang, J. Pan, M. Tian, Flow and heat transfer
characteristics of falling water film on horizontal circular and
non-circular cylinders, J. Hydrodyn., 25 (2013) 404–414.
- A. Hasan, K. Siren, Performance investigation of plain and
finned tube evaporatively cooled heat exchangers, Appl.
Therm. Eng., 23 (2003) 325–340.
- L. Chen, Z.Y. Chen, Falling film boiling heat transfer on
horizontal elliptical tube, Chem. Eng. (China), 8 (1990) 35–40.
- A.E. Javad, M. Mahnaz, Entropy generation of forced
convection film condensation on a horizontal elliptical tube,
C.R. Mec., 340 (2012) 543–551.
- C.-h. Qi, H.-J. Feng, H.-q. Lv, C. Miao, Numerical and
experimental research on the heat transfer of seawater
desalination with liquid film outside elliptical tube, Int. J. Heat
Mass Transfer, 93 (2016) 207–216.
- S. Sideman, D. Moalem, R. Semiat, Theoretical analysis of
horizontal condenser-evaporator conduits for various cross
sections, Desalination, 17 (1975) 167–192.
- Y.-T. Lee, S. Hong, C. Dang, L.-H. Chien, L.-W. Chang,
A.-S. Yang, Heat transfer characteristics of obliquely dispensed
evaporating falling films on an elliptical tube, Int. J. Heat
Mass Transfer, 132 (2019) 238–248.
- Y.-T. Lee, S. Hong, C. Dang, L.-H. Chien, L.-W. Chang,
A.-S. Yang, Effect of counter current air flow on film dispersion
and heat transfer of evaporative falling film over a horizontal
elliptical tube, Int. J. Heat Mass Transfer, 141 (2019) 964–973.
- L. Pu, Q. Li, X. Shao, L. Ding, Y. Li, Effects of tube shape on flow
and heat transfer characteristics in falling film evaporation,
Appl. Therm. Eng., 148 (2019) 412–419.
- M.C. Chyu, A.E. Bergles, An analytical and experimental study
of falling film evaporation on a horizontal tube, J. Heat Transfer,
109 (1987) 983–990.
- D. Balaji, R. Velraj, M.V. Ramana Murthy, Numerical
investigation on the effect of tube geometry and feeder height
on the heat transformer performance of horizontal tube falling
film evaporation, J. Heat Transfer, 141 (2019) 111502–111518.
- ANSYS Fluent Software Version 14.0.
- R. Bruce, S. Pascali, C. Vendramini, B. Baudouy, Implementation
of the thermodynamic and phase transition equations of
super fluid helium in CFD software, IOP Conf. Ser., 101 (2015)
012166.
- C.W. Hirt, B.D. Nichols, Volume of fluid (VOF) method for
the dynamics of free boundaries, J. Comput. Phys., 39 (1981)
201–225.
- J.U. Brackbill, D.B. Kathe, C. Zemach, A continuum method
for modelling surface tension, J. Comput. Phys., 100 (1992)
335–354.
- R. Sharma, Sushanta K. Mitra, Performance model for a
horizontal tube falling film evaporator, Int. J. Green Energy,
2 (2005) 109–127.