References

1. L. Yu, I. Yıldızf, 1.24 Energy and Water Pollution, Comprehensive Energy Systems, 1 (2018) 950–979.
2. J. Le Dirach, S. Nisan, C. Poletiko, Extraction of strategic materials from the concentrated brine rejected by integrated nuclear desalination systems, Desalination, 182 (2005) 449–460.
3. M.A. Dawoud, The role of desalination in augmentation of water supply in GCC countries, Desalination, 186 (2005) 187–198.
4. M.H. El-Naas, Teaching water desalination through active learning, Educ. Chem. Eng., 6 (2011) 97–102.
5. A. Pérez-González, A.M. Urtiaga, R. Ibáñez, I. Ortiz, State of the art and review on the treatment technologies of water reverse osmosis concentrates, Water Res., 46 (2012) 267–283.
6. M.H. El-Naas, A.H. Al-Marzouqi, O. Chaalal, A combined approach for the management of desalination reject brine and capture of CO₂, Desalination, 251 (2010) 70–74.
7. N. Ahmad, R.E. Baddour, A review of sources, effects, disposal methods, and regulations of brine into marine environments, Ocean Coastal Manage., 87 (2014) 1–7.
8. D.T. Moussa, M.H. El-Naas, M. Nasser, M.J. Al-Marri, A comprehensive review of electrocoagulation for water treatment: Potentials and challenges, J. Environ. Manage., 186 (2016) 24–41.
9. T.R. Devlin, M.S. Kowalski, E. Pagaduan, X. Zhang, V. Wei, J.A. Oleszkiewicz, Electrocoagulation of wastewater using aluminum, iron, and magnesium electrodes, J. Hazard. Mater., 368 (2019) 862–868.
10. M. Reilly, A.P. Cooley, D. Tito, S.A. Tassou, M.K. Theodorou, Electrocoagulation treatment of dairy processing and slaughterhouse wastewaters, Energy Procedia, 161 (2019) 343–351.
11. N.S. Graça, A.M. Ribeiro, A.E. Rodrigues, Modeling the electrocoagulation process for the treatment of contaminated water, Chem. Eng. Sci., 197 (2019) 379–385.
12. Y. Ito, T. Ohmori, S. Nakamatsu, S. Yoshizawa, A molten salt electrolytic process for recovering chlorine and ammonia from ammonium chloride, J. Appl. Electrochem., 10 (1980) 419–425.
13. T. Picard, G. Cathalifaud-Feullade, M. Mazet, C. Vandensteendam, Cathodic dissolution in the electrocoagulation process using aluminium electrodes, J. Environ. Monit., 2 (2000) 77–80.
14. C.B.F. Young, E.G. Lundstrom, The Electrolytic Decomposition of Aqueous Ammonium Chloride Solutions, the 81st General Meeting, held at Nashville, Tennessee, April 17, 1942.
15. Y. Tian, W. He, X. Zhu, W. Yang, N. Ren, B.E. Logan, Energy efficient electrocoagulation using an air-breathing cathode to remove nutrients from wastewater, Chem. Eng. J., 292 (2016) 308–314.
16. L. Kumar, S.K. Singh, Removal of chloride from ground water by Bio adsorption, Int. J. Adv. Res., 3 (2015) 140–154.
17. T. Ueda, K. Wakitani, A. Nanasawa, Influence of electrolyte temperature on efficiency of electrochemical chloride removal from concrete, Electrochim. Acta., 86 (2012) 23–27.
18. A.F.M. Mohammad, Optimization of a Combined Approach for the Treatment of Desalination Reject Brine and Capture of CO₂, Master’s Thesis, UAE University, UAE, 2015.
19. M. Chafi, B. Gourich, A.H. Essadki, C. Vial, A. Fabregat, Comparison of electrocoagulation using iron and aluminium electrodes with chemical coagulation for the removal of a highly soluble acid dye, Desalination, 281 (2011) 285–292.
20. Colorimeter: Procedure Manual, Hach Company, USA, 2013.
21. Y.A. El-Taweel, E.M. Nassef, I. Elkheriany, D. Sayed, Removal of Cr(VI) ions from waste water by electrocoagulation using iron electrode, Egypt. J. Pet., 24 (2015) 183–192.
22. B.Z. Can, R. Boncukcuoglu, A.E. Yilma, B.A. Fil, Effect of some operational parameters on the arsenic removal by electrocoagulation using iron electrodes, J. Environ. Health Sci. Eng., 12 (2014) 1–10.
23. M.S. Mahmoud, J.Y. Farah, T.E. Farrag, Enhanced removal of Methylene Blue by electrocoagulation using iron electrodes, Egypt. J. Pet., 22 (2013) 211–216.
24. A.S. Naje, S. Chelliapan, Z. Zakaria, M.A. Ajeel, P.A. Alaba, A review of electrocoagulation technology for the treatment of textile wastewater, Rev. Chem. Eng., 33 (2016) 263–292.
25. Y. Wang, X. Guo, J. Li, Y. Yang, Z. Lei, Z. Zhang, Efficient electrochemical removal of ammonia with various cathodes and Ti/RuO₂-Pt anode, Open J. Appl. Sci., 2 (2012) 241–247.
26. W.-L. Chou, Y.-H. Huang, Electrochemical removal of indium ions from aqueous solution using iron electrodes, J. Hazard. Mater., 172 (2009) 46–53.