1. M. Al-Sahali, H.M. Ettouney, Humidification dehumidification desalination process: design and performance evaluation, Chem. Eng. J., 143 (2008) 257–264.
  2. A.E. Kabeel, M.H. Hamed, Z.M. Omara, S.W. Sharshir, Water desalination using a humidification–dehumidification technique—a detailed review, Nat. Resour., 4 (2013) 286–305.
  3. H. Muller-Holst, Solar Thermal Desalination Using the Multiple Effect Humidification (MEH)-Method Solar Desalination for the 21 Century, Vol. 18, L. Rizzuti, H. Ettouney, A. Cipollina, Eds., NATO Security Through Science Series: Springer, Netherlands, 2007, pp. 215–225.
  4. G.P. Narayan, J.H. Lienhard V, Thermal design of humidification dehumidification systems for affordable small-scale desalination, IDA J., 4 (2012) 24–34.
  5. K.H. Mistry, A. Mitsos, J.H. Lienhard V, Optimal operating conditions and configurations for humidification–dehumidification desalination cycles, Int. J. Therm. Sci., 50 (2011) 779–789.
  6. K. Srithar, T. Rajaseenivasan, Recent fresh water augmentation techniques in solar still and HDH desalination – a review, Renewable Sustainable Energy Rev., 82 (2018) 629–644.
  7. S. Hou, S. Ye, H. Zhang, Performance optimization of solar humidification–dehumidification desalination process using Pinch technology, Desalination, 183 (2005) 143–149.
  8. G. Prakash Narayan, M.H. Sharqawy, E.K. Summers, J.H. Lienhard V, S.M. Zubair, M.A. Antar, The potential of solar-driven humidification–dehumidification desalination for small-scale decentralized water production, Renewable Sustainable Energy Rev., 14 (2010) 1187–1201.
  9. M. Zamen, S.M. Soufari, S. Abbasian Vahdat, M. Amidpour, M.A. Zeinali, H. Izanloo, H. Aghababaie, Experimental investigation of a two-stage solar humidification–dehumidification desalination process, Desalination, 332 (2014) 1–6.
  10. T.E. Simos, N.K. Nawayseh, M.M. Farid, A.A. Omar, S.M. Al-Hallaj, A.I. Tamimi, A simulation study to improve the performance of a solar humidification–dehumidification desalination unit constructed in Jordan, Desalination, 109 (1997) 277–284.
  11. M.M. Farid, S. Parekh, J.R. Selman, S. Al-Hallaj, Solar desalination with a humidification–dehumidification cycle: mathematical modeling of the unit, Desalination, 151 (2003) 153–164.
  12. J. Orfi, M. Laplante, H. Marmouch, N. Galanis, B. Benhamou, S.B. Nasrallah, C.T. Nguyen, Experimental and theoretical study of a humidification–dehumidification water desalination system using solar energy, Desalination, 168 (2004) 151–159.
  13. G. Prakash Narayan, M.G. St. John, S.M. Zubair, J.H. Lienhard V, Thermal design of the humidification dehumidification desalination system: an experimental investigation, Int. J. Heat Mass Transfer, 58 (2013) 740–748.
  14. M.H. Sharqawy, M.A. Antar, S.M. Zubair, A.M. Elbashir, Optimum thermal design of humidification dehumidification desalination systems, Desalination, 349 (2014) 10–21.
  15. S.M. Soufari, M. Zamen, M. Amidpour, Performance optimization of the humidification–dehumidification desalination process using mathematical programming, Desalination, 237 (2009) 305–317.
  16. X. Huang, T. Ke, Y. Li, X. Ling, Experimental investigation and optimization of total energy consumption in humidification– dehumidification system, Energy Procedia, 158 (2019) 3488–3493.
  17. X. Huang, X. Ling, Y. Li, W. Liu, T. Ke, A graphical method for the determination of optimum operating parameters in a humidification–dehumidification desalination system, Desalination, 455 (2019) 19–33.
  18. A.S.A. Mohamed, M.S. Ahmed, A.G. Shahdy, Theoretical and experimental study of a seawater desalination system based on humidification–dehumidification technique, Renewable Energy, 152 (2020) 823–834.
  19. A.S.A. Mohamed, A.G. Shahdy, M. Salem Ahmed, Investigation on solar humidification dehumidification water desalination system using a closed-air cycle, Appl. Therm. Eng., 188 (2021) 116621, doi:10.1016/j.applthermaleng.2021.116621.
  20. M. Alrbai, J. Enizat, H. Hayajneh, B. Qawasmeh, S. Al-Dahidi, Energy and exergy analysis of a novel humidification– dehumidification desalination system with fogging technique, Desalination, 522 (2022) 115421, doi: 10.1016/j.desal.2021.115421.
  21. K.Q. Vo., A.Q. Hoang, C.H. Le, Optimizing the Operating Parameters of the Humidification–Dehumidification Desalination System by Pinch Technology, Presented at the 4th International Conference on Green Technology and Sustainable Development (GTSD), Ho Chi Minh City – Vietnam, 2018.
  22. L. March, Introduction to Pinch Technology, Targeting House, Gadbrook Park, Northwich, Cheshire, CW9 7UZ, England, 1998.
  23. ASHRAE Handbook—Fundamentals Volume (ASHRAE 1791 Tulie Circle), Atlanta, Georgia, 2001.
  24. H. Zheng, Chapter 6 – Humidification–Dehumidification Solar Desalination Systems, In: Solar Energy Desalination Technology, Amsterdam, Elsevier, 2017, pp. 447–535.
  25. K. Zhani, Solar desalination based on multiple effect humidification process: thermal performance and experimental validation, Renewable Sustainable Energy Rev., 24 (2013) 406–417.