References

1. A.Z. Barak, W.L. Barnes, The design, construction, testing and operation of a large-scale prototype desalting plant in Israel, Desalination, 20 (1977) 163–172.
2. S.G. Ruiz, J.A.L. Ramírez, M.H. Zerrouk, A.E.C. Lopera, J.M.Q. Alonso, Study of reverse osmosis membranes fouling by inorganic salts and colloidal particles during seawater desalination, Chin. J. Chem. Eng., 28 (2020) 733–742.
3. Q. Liu, G.-R. Xu, R. Das, Inorganic scaling in reverse osmosis (RO) desalination: mechanisms, monitoring, and inhibition strategies, Desalination, 468 (2019) 114065, doi: 10.1016/j. desal.2019.07.005.
4. Reverse Osmosis Desalination Costs Analysis, n.d. Available at: https://www.lenntech.it/processi/desalinizzazione/la-desali nizzazione-ed-i-costi-energetici.htm
5. G. Micale, L. Rizzuti, A. Cipollina (Eds). Seawater Desalination: Conventional and Renewable Energy Processes, Springer, Berlin, Heidelberg, 2009.
6. IDA Worldwide Desalting Plant Inventory, No. 19 in MS Excel Format, Media Analytics Ltd., Oxford, 2006.
7. J.B. Tonner, H. Steen, C. Legoretta, Plates − the next breakthrough in thermal desalination. Desalination, 134 (2001) 205–211.
8. C. Dreiser, L.J. Kratz, H.J. Bart, Polymer Film Heat Exchanger for Seawater Desalination: Prevention and Cleaning of Fouling Deposits. Available at: http://www.heatexchanger-fouling.com/ papers/papers2013/42_Dreiser-2_F.pdf