References

1. D.H. Kim, A review of desalting process techniques and economic analysis of the recovery of salts from retentates, Desalination, 270 (2011) 1–8.
2. A.G. Pervov, Precipitation of calcium carbonate in reverse osmosis retentate flow by means of seeded techniques — a tool to increase recovery, Desalination, 368 (2015) 140–151.
3. H. Wang, D. Wang, Z. Li, G.P. Demopoulos, Solubility and scale prevention of gypsum in transportation pipes of well brine with salinities up to 5 M at temperature range of 278–298 K, Desal. Wat. Treat., 22 (2010) 78–86.
4. K. Moriyama, T. Kojima, Y. Minawa, S. Matsumoto, K. Nakamachi, Development of artificial seed crystal for crystallization of calcium phosphate, Environ. Technol., 22 (2001) 1245–1252.
5. J. Liu, J.J. Yuan, Calcium sulfate scaling and its advances in application of control techniques, Tianjin Chem. Ind., 24 (2010) 10–14.
6. H.G. Dong, J. Ding, Z.Q. Shen, Experimental research for fouling-proof by introducing seeding crystal, Chem. Eng. (China), 27 (1999) 16–19.
7. O.D. Linnikov, About seed concentration for prevention of scale, Desalination, 157 (2003) 235–240.
8. W. Omar, J. Chen, J. Ulrich, Reduction of seawater scale forming potential using the fluidized bed crystallization technology, Desalination, 250 (2010) 95–100.
9. A. Al-Ghamdi, W. Omar, Application of pellet softening (PS) as a scale prevention method in seawater desalination plants, Desal. Wat. Treat., 51 (2013) 5509–5515.
10. W. Omar, J. Chen, J. Ulrich, Application of seeded batch crystallization methods for reduction of the scaling tendency of seawater - A study of growth kinetics of calcium carbonate in seawater, Crystal Res. Technol., 44 (2010) 469–476.
11. B.O. Hasan, G.J. Nathan, P.J. Ashman, R.A. Craig, R.M. Kelso, The use of turbulence generators to mitigate crystallization fouling under cross flow conditions, Desalination, 288 (2012) 108–117.
12. B.O. Hasan, G.J. Nathan, P.J. Ashman, R.A. Craig, R.M. Kelso, The effects of temperature and hydrodynamics on the crystallization fouling under cross flow conditions, Appl. Thermal Eng., 36 (2012) 210–218.
13. A.E. Al-Rawajfeh, S. Ihm, H. Varshney, A.N. Mabrouk, Scale formation model for high top brine temperature multi-stage flash (MSF) desalination plants, Desalination, 350 (2014) 53–60.
14. T.M. Pääkkönen, M. Riihimäki, C.J. Simonson, E. Muurinen, R.L. Keisk, Crystallization fouling of CaCO₃ - Analysis of experimental thermal resistance and its uncertainty, Int. J. Heat Mass Transfer, 55 (2012) 6927–6937.
15. V. Hofling, W. Augustin, M. Bohnet, Crystallization fouling of the aqueous two-component system CaSO₄/CaCO₃ fouling of salt mixtures, Int. J. Transport Phenom., 6 (2004) 99–110.
16. S.M. Peyghambarzadeh, N. Bahrami, Statistical analysis of calcium sulfate scaling under boiling heat transfer, Appl. Thermal Eng., 53 (2013) 108–113.
17. J. Shen, H. Zhang, P. Zhao, Characteristics of the initial stage of CaCO₃ crystallization fouling on two kinds of oblique fin tube, J. Univ. Shanghai Sci. Technol., 36 (2014) 443–448.
18. K. Krömer, S. Will, K. Loisel, S. Nied, J. Detering, A. Kempter, H. Glade, Scale formation and mitigation of mixed salts in horizontal tube falling film evaporators for seawater desalination, Heat Transfer Eng., 36 (2014) 750–762.
19. A. Stärk, K. Loisel, K. Odiot, A. Feßenbecker, A. Kempter, S. Nied, H. Glade, Wetting behaviour of different tube materials and its influence on scale formation in multiple-effect distillers, Desal. Wat. Treat., 55 (2015) 2502–2514.
20. D. Yang, J. Liu, E. Xiaoxue, J. Linlin, Model for seawater fouling and effects of temperature, flow velocity and surface free energy on seawater fouling, Chin. J. Chem. Eng., 24 (2016) 658–664.
21. A. E. Al-Rawajfeh, Modeling of alkaline scale formation in falling film horizontal-tube multiple-effect distillers, Desalination, 205 (2007) 124–139.
22. C. Wildebrand, H. Glade, S. Will, M. Essig, J. Rieger, K. Büchner, G. Brodt, Effects of process parameters and antiscalants on scale formation in horizontal tube falling film evaporators, Desalination, 204 (2007) 448–463.
23. M. Whitfield, The extension of chemical models for sea water to include trace components at 25°C and 1 atm pressure, Geochim. Cosmochim. Acta, 39 (1975) 1545–1557.
24. M. Whitfield, A chemical model for the major electrolyte component of seawater based on the Brønsted-Guggenheim hypothesis, Marine Chem., 1 (1973) 251–266.
25. H. Wei, The conversion, modification and the solubility study of flue gas desulfurization gypsum at atmospheric pressure, Wuhan University of Science and Technology, China, 2009.
26. T.H. Liu, D. Yan, F. Yang, C. Peng, S. Hao, Z.Y. Zheng, R. Liu, Influence of Al³⁺, Na⁺ and Mg²⁺ on crystallization of calcium sulfate dihydrate, J. Chem. Ind. Eng., 67 (2016) 296–301.