References
- Azzopardi, B.J. 2006. Gas-Liquid Flows. Begell House:1–2.
- Chang, H. 1994. Wave evolution on a falling film. Annual Review of Fluid Mechanics 26:103–36.
- Conde, M.R. 2004. Properties of aqueous solutions of lithium and calcium chlorides: Formulations for use in air conditioning equipment design. International Journal of Thermal Science 43:367–82.
- Hartley, D.E., and W. Murgatroyd. 1964. Criteria for the break-up of thin liquid layers flowing isothermally over solid surfaces. International Journal of Heat and Mass Transfer 7:1003–15.
- Himmelblau, D.M. 1964. Diffusion of dissolved gases in liquid. Chemical Reviews 64(5):527–50.
- Kocamustafaogullari, G., and I.Y. Chen. 1998. Falling film heat transfer analysis on a bank of horizontal tube evaporator. AIChE Journal 34(9):1539–49.
- Liu, J., and J.P. Gollub. 1994. Solitary wave dynamics of film flows. Physics of Fluids 6(5):1702–12.
- Luo, Y.M., S.Q. Shao, F. Qin, C.Q. Tian, and H.X. Yang. 2012. Investigation of feasibility of ionic liquids used in solar liquid desiccant air conditioning system. Solar Energy 86:2718–24.
- Luo, Y.M., S.Q. Shao, H.B. Xu, and C.Q. Tian. 2011. Dehumidification performance of [EMIM]BF4. Applied Thermal Engineering 31(14–15):2772–77.
- Luo, Y.M., S.Q. Shao, H.B. Xu, and C.Q. Tian, and H.X. Yang. 2014b. Experimental and theoretical research of a fin-tube type internally-cooled liquid desiccant dehumidifier.Applied Energy 133:127–34.
- Luo, Y.M., H.X. Yang, and L. Lu. 2014a. Liquid desiccant dehumidifier: Development of a new performance predication model based on CFD. International Journal of Heat and Mass Transfer 69:408–16.
- Luo, Y.M., H.X. Yang, and L. Lu. 2014d. Dynamic and microscopic simulation of the counter-current flow in a liquid desiccant dehumidifier. Applied Energy 136:1018–25.
- Luo, Y.M., H.X. Yang, L. Lu, and R.H. Qi. 2014c. A review of the mathematical models for predicting the heat and mass transfer process in the liquid desiccant dehumidifier. Renewable and Sustainable Energy Reviews 31:587–99.
- Luo, Y.M., M. Wang, H.X. Yang, L. Lu, and J.Q. Peng. 2015. Experimental study of falling film thickness in a dehumidifier of liquid desiccant air conditioning system. Energy 84:239–46.
- Nagasaki, T., H. Akiyama, and H. Nakagawa. 2002. Numerical analysis of flow and mass transfer in a falling liquid film with interfacial waves. Thermal Science and Engineering 10:17–23.
- Park, C.D., and T. Nosoko. 2003. Three-dimensional wave dynamics on a falling film and associated mass transfer. AIChE Journal 49(11):2715–27.
- Qi, R.H., L. Lu, and Y. Jiang. 2015. Investigation on the liquid contact angle and its influence for liquid desiccant dehumidification system. International Journal of Heat and Mass Transfer 88:210–7.
- Ramaswamy, B., S. Chippada, and S.W. Joo. 1996. A full-scale numerical study of interfacial instabilities in thin-film flows. Journal of Fluid Mechanics 325:163–94.
- Sabir, H.M., and I.W. Eames. 1999. Performance of film absorbers under the effect of a contaminant non-absorbable gas. Applied Energy 63:255–67.
- Seban, R.A., and A. Faghri. 1978. Wave effects on the transport to falling laminar liquid films. Journal of Heat Transfer 100(1):143–7.
- Shi, C.M., Y. Wang, H. Hu, and Y. Yang. 2010. Mathematical simulation of lithium bromide solution laminar falling film evaporation in vertical tube. International Journal of Thermal Science 19(3):239–44.
- Ye, X.M., C.X. Li, and W.P. Yan. 2002. Linear spatial evolution formulation of two-dimensional waves on liquid films under evaporating/isothermal/condensing conditions. The 10th International Conference on Nuclear Engineering, Volume 3, Arlington, Virginia, April 14-18.
- Yu, Y.Q., S.J. Wei, Y.H. Yang, and X. Cheng. 2012. Experimental study of water film falling and spreading on a large vertical plate. Progress in Nuclear Energy 54:22–8.
- Zhao, L., and R.L. Cerro. 1992. Experimental characterization of viscous film flows over complex surfaces. International Journal of Multiphase Flow 18(4):495–516.