References

  1. V. Renaudin, F. Kafi, D. Alonso, A. Andreoli, Performances of a three-effect plate desalination process, Desalination, 182 (2005) 165–173.
  2. F. Kafi, V. Renaudin, D. Alonso, J.M. Hornut, New MED plate desalination process: thermal performances, Desalination, 166 (2004) 53–62.
  3. K.C. Ng, M.W. Shahzad, H.S. Son, O.A. Hamed, An exergy approach to efficiency evaluation of desalination, Appl. Phys. Lett., 110 (2017) 184101.
  4. M.W. Shahzad, K.C. Ng, K. Thu, Future sustainable desalination using waste heat: kudos to thermodynamic synergy, Environ. Sci. Water Res. Technol., 2 (2016) 206–212.
  5. M.W. Shahzad, M. Burhan, N. Ghaffour, K.C. Ng, A multi evaporator desalination system operated with thermocline energy for future sustainability, Desalination, 435 (2018) 268–277.
  6. M.W. Shahzad, K.C. Ng, An improved multievaporator adsorption desalination cycle for gulf cooperation council countries, Energy Technol., 5 (2017) 1663–1669.
  7. M.W. Shahzad, M. Burhan, L. Ang, K.C. Ng, Energy-water-environment nexus underpinning future desalination sustainability, Desalination, 413 (2017) 52–64.
  8. H. Kariman, S. Hoseinzadeh, A. Shirkhani, P.S. Heyns, J. Wannenburg, Energy and economic analysis of evaporative vacuum easy desalination system with brine tank, J. Therm. Anal. Calorim., 140 (2020) 1935–1944.
  9. S. Hoseinzadeh, H. Kariman, P.S. Heyns, Energetic and exergetic analysis of evaporation desalination system integrated with mechanical vapor recompression circulation, Case Stud. Therm. Eng., 16 (2019) 100548.
  10. S. Hoseinzadeh, R. Yargholi, H. Kariman, P.S. Heyns, Exergeoeconomic analysis and optimization of reverse osmosis desalination integrated with geothermal energy, Environ. Prog. Sustainable Energy, https://doi.org/10.1002/ep.13405 (in press).
  11. S. Hoseinzadeh, R. Ghasemiasl, M.A. Javadi, P.S. Heyns, Performance evaluation and economic assessment of a gas power plant with solar and desalination integrated systems, Desal. Water Treat., 174 (2020) 11–25, https://doi.org/10.5004/ dwt.2020.24850.
  12. S. Hoseinzadeh, M. Hadi Zakeri, A. Shirkhani, A.J. Chamkha, Analysis of energy consumption improvements of a zeroenergy building in a humid mountainous area, J. Renewable Sustainable Energy, 11 (2019) 015103.
  13. R. Yargholi, H. Kariman, S. Hoseinzadeh, M. Bidi, A. Naseri, Modeling and advanced exergy analysis of integrated reverse osmosis desalination with geothermal energy, Water Supply, 20 (2020) 984–996.
  14. H. Raach, J. Mitrovic, Simulation of heat and mass transfer in a multi-effect distillation plant for seawater desalination, Desalination, 204 (2007) 416–422.
  15. V. Renaudin, D. Alonso, F. Kafi, J.-M. Hornut, Potential Application of Solar Heat Collectors to an EasyMED® Thermal Desalination Unit, Solar Desalination for the 21st Century, Springer, 2007, pp.259–270.
  16. V. Renaudin, F. Kafi, D. Alonso, A. Andreoli, Performances of a three-effect plate desalination process, Desalination, 182 (2005) 165–173.
  17. C. Shen, X. Xu, X.-Y. Hou, D.-X. Wu, J.-H. Yin, Molecular weight effect on PAA antiscale performance in LT-MED desalination system: static experiment and MD simulation, Desalination, 445 (2018) 1–5.
  18. G. Suo, L. Xie, S. Xu, L. Feng, T. Dong, X. Shao, Study on inhibitors’ performance under the condition of high concentration ratio in MED system, Desalination, 437 (2018) 100–107.
  19. Y. Tang, Z. Liu, C. Shi, Y. Li, A novel steam ejector with pressure regulation to optimize the entrained flow passage for performance improvement in MED-TVC desalination system, Energy, 158 (2018) 305–316.
  20. Z. Dong, M. Liu, X. Huang, Y. Zhang, Z. Zhang, Y. Dong, Dynamical modeling and simulation analysis of a nuclear desalination plant based on the MED-TVC process, Desalination, 456 (2019) 121–135.
  21. O.M.A. Al-hotmani, M.A. Al-Obaidi, G. Filippini, F. Manenti, R. Patel, I.M. Mujtaba, Optimisation of multi effect distillation based desalination system for minimum production cost for freshwater, Comput. Aided Chem. Eng., 46 (2019) 169–174.
  22. A. Rezaei, A. Naserbeagi, G. Alahyarizadeh, M. Aghaie, Economic evaluation of Qeshm island MED-desalination plant coupling with different energy sources including fossils and nuclear power plants, Desalination, 422 (2017) 101–112.
  23. Z.R. Chong, T. He, P. Babu, J.-N. Zheng, P. Linga, Economic evaluation of energy efficient hydrate based desalination utilizing cold energy from liquefied natural gas (LNG), Desalination, 463 (2019) 69–80.
  24. A. Sohani, H. Sayyaadi, S. Hoseinpoori, Modeling and multiobjective optimization of an M-cycle cross-flow indirect evaporative cooler using the GMDH type neural network, Int. J. Refrig., 69 (2016) 186–204.
  25. A. Sohani, H. Sayyaadi, N. Mohammadhosseini, Comparative study of the conventional types of heat and mass exchangers to achieve the best design of dew point evaporative coolers at diverse climatic conditions, Energy Convers. Manage., 158 (2018) 327–345.
  26. M.E. Yousef Nezhad, S. Hoseinzadeh, Mathematical modelling and simulation of a solar water heater for an aviculture unit using MATLAB/SIMULINK, J. Renewable Sustainable Energy, 9 (2017) 063702, https://doi.org/10.1063/1.5010828.
  27. M.H. Ghasemi, S. Hoseinzadeh, P.S. Heyns, D.N. Wilke, Numerical analysis of non-fourier heat transfer in a solid cylinder with dual-phase-lag phenomenon, Comput. Modell. Eng. Sci., 122 (2020) 399–414.
  28. T.L. Bergman, F.P. Incropera, D.P. DeWitt, A.S. Lavine, Fundamentals of Heat and Mass Transfer, John Wiley & Sons, 2011.