[1] Ahmed, M.I., Hrairi, M., and Ismail, A.F., "On the Characteristics of Multistage Evacuated Solar Distillation", Renewable Energy, Vol. 253, pp. 1471-1478, (2009).
[2] Setoodeh, N., Rahimi, R., and Ameri, A., "Modeling and Determination of Heat Transfer Coefficient in a Basin Solar Still using CFD", Desalination, Vol. 268, pp. 103–110, (2011).
[3] Panchal, H., and Shah, P.K., "Modelling and Verification of Single Slope Solar Still using Ansys-CFX", International Journal of Energy and Environment, Vol. 2, pp. 985-998, (2011).
[4] Badusha, R.A., and Arjunan, T.V., "Performance Analysis of Single Slope Solar Still", International Journal of Mechanical Engineering and Robotics Research, Vol. 2, pp. 74-81, (2013).
[5] Rahbar, N., Esfahani, J., and Fotouhi, E., "Estimation of Convective Heat Transfer Coefficient and Water-productivity in a Tubular Solar Still - CFD Simulation and Theoretical Analysis", Solar Energy, Vol. 113, pp. 313–323, (2015).
[6] Maheswari, C.U., Reddy, B.V., and Sree, A.N., "CFD Analysis of Single Basin Double Slope Solar Still", Invention Journal of Research Technology in Engineering and Management, Vol. 2(3), pp. 01-05, (2016).
[7] Rashidi, S., Akar, S., and Bovand, M., "Volume of Fluid Model to Simulate the Nanofluid Flow and Entropy Generation in a Single Slope Solar Still", Renewable Energy, Vol. 115, pp. 400-410, (2018).
[8] Khare, V.R., Singh, A.P., and Kumar, H., "Modelling and Performance Enhancement of Single Slope Solar Still using CFD", Energy Procedia, Vol. 109, pp. 447-457, (2017).
[9] Rashidi, S., Bovand, M., Rahbar, N., and Esfahani, J., "Steps Optimization and Productivity Enhancement in a Nanofluid Cascade Solar Still", Renewable Energy, Vol. 118, pp. 536-545, (2018).
[10] Tiantong, Y., Xie, G., Liu, H., Wu, Z., and Sun, L., "CFD Investigation of Vapor Transportation in a Tubular Solar Still Operating under Vacuum", International Journal of Heat and Mass Transfer, Vol. 156, (2020).
[11] Keshtkar, M., Eslami, M., and Jafarpur, K., "Effect of Design Parameters on Performance of Passive Basin Solar Stills Considering Instantaneous Ambient Conditions: A Transient CFD Modeling", Solar Energy, Vol. 201, pp. 884–907, (2020).
[12] Pirkandi, J., Kassaei, F., and Hashemabadi, M., "Experimental Investigation of Simultaneous Effect of Parabolic Trough Collector and Flat External Reflectors on Performance of Stepped Solar Still", Water Supply, Vol. 22, pp. 3086–3102, (2022).
[13] Bl´azquez, J.L.F., and Maestre, I.R., "A New Practical CFD-based Methodology to Calculate the Evaporation Rate in Indoor Swimming Pools", Energy and Buildings, Vol. 149, pp. 131-141, (2017).
[14] Kabeel, A.E., Omara, Z.M., and Essa, F.A., "Improving the Performance of Solar Still by using Nanofluids and Providing Vacuum", Energy Conversion and Management, Vol. 86, pp. 268-274, (2014).
[15] Velmurugan, V., Kumar, K.N., Haq, T.N., and Srithar, K., "Performance Analysis in Stepped Solar Still for Effluent Eesalination", Energy, Vol. 34, pp. 1179-1186, (2009).
[16] El-Samadony, Y.A.F., Abdullah, A.S., and Omara, Z.M., "Experimental Study of Stepped Solar Still Integrated with Reflectors and External Condenser", Experimental Heat Transfer, Vol. 28, pp. 392-404, (2015).
[17] Rahbar, N., Esfahani, J., and Fotouhi, E., "Estimation of Convective Heat Transfer Coefficient and Water-productivity in a Tubular Solar Still–CFD Simulation and Theoretical Analysis", Solar Energy, Vol. 113, pp. 313–323, (2015).
[18] Rahbar, N., and Esfahani, J., "Estimation of Convective Heat Transfer Coefficient in a Single Slope Solar Still: a Numerical Study", Desalination and Water Treatment, Vol. 50, pp. 387–396, (2012).
[19] Versteeg, H., and Malalasekera, W., "An Introduction to Computational Fluid Dynamics: The Finite Volume Method", Second Edition, Prentice-Hall, England, (2007).
[20] Alipanah, F., "Study on a Weir-type Cascade Solar Still", Master of Science Thesis, Department of Mechanical Engineering, Semnan Branch Islamic Azad University, (2014).
[21] Box, G.E.P., and Hunter, J.S., "Multi-factor Experimental Designs for Exploring Response Surfaces", The Annals of Mathematical Statistics, Vol. 28, pp.195-241, (1957).
[22] Zamani, H., Moghiman, M., and Kianifar, A., "Optimization of the Parabolic Mirror Position in a Solar Cooker using the Response Surface Method (RSM) ", Renewable Energy, Vol. 81, pp. 753-759, (2015).
[23] Rahbar, N., and Esfahani, J.A., "Experimental Study of a Novel Portable Solar Still by Utilizing the Hesatpipe and Thermoelectric Module", Desalination, Vol. 284, pp. 55–61, (2012).