References

1. J.-L. Lin, C. Huang, B. Dempsey, J.-Y. Hu, Fate of hydrolyzed Al species in humic acid coagulation, Water Res., 56 (2014) 314–324.
2. J. Dotto, M.R. Fagundes-Klen, M.T. Veit, S.M. Palácio, R. Bergamasco, Performance of different coagulants in the coagulation/flocculation process of textile wastewater, J. Cleaner Prod., 208 (2019) 656–665.
3. J. Ma, R. Wang, X.Y. Wang, H. Zhang, B. Zhu, L.L. Lian, D.W. Lou, Drinking water treatment by stepwise flocculation using polysilicate aluminum magnesium and cationic polyacrylamide, J. Environ. Chem. Eng., 7 (2019) 103049.
4. M. Rebosura, S. Salehin, I. Pikaar, J. Kulandaivelu, G. Jiang, J. Keller, K. Sharma, Z. Yuan, Effects of in-sewer dosing of iron-rich drinking water sludge on wastewater collection and treatment systems, Water Res., 171 (2020) 115396.
5. E.C. Lopes, S.C.R. Santos, A.M.A. Pintor, R.A.R. Boaventura, C.M.S. Botelho, Evaluation of a tannin-based coagulant on the decolorization of synthetic effluents, J. Environ. Chem. Eng., 7 (2019) 103125.
6. P.F. Sun, H. Lin, G. Wang, L.L. Lu, Y.H. Zhao, Preparation of a new-style composite containing a key bioflocculant produced by Pseudomonas aeruginosa ZJU1 and its flocculating effect on harmful algal blooms, J. Hazard. Mater., 284 (2015) 215–221.
7. E. Lichtfouse, N. Morin-Crini, M. Fourmentin, H. Zemmouri, I.O.C. do Nascimento, L.M. Queiroz, M.Y.M. Tadza, L.A. Picos-Corrales, H. Pei, L.D. Wilson, Chitosan for Direct Bioflocculation Processes, G. Crini, E. Lichtfouse, Eds., Sustainable Agriculture Reviews, Vol. 36, Springer, Cham, 2019, pp. 335–380.
8. H.P. Guo, C.T. Hong, B.S. Zheng, F. Lu, D. Jiang, W.S. Qin, Bioflocculants’ production in a biomass-degrading bacterium using untreated corn stover as carbon source and use of bioflocculants for microalgae harvest, Biotechnol. Biofuels, 10 (2017) 1–12.
9. P. Sivasankar, S. Poongodi, A.O. Lobo, A. Pugazhendhi, Characterization of a novel polymeric bioflocculant from marine actinobacterium Streptomyces sp. and its application in recovery of microalgae, Int. Biodeterior. Biodegrad., 148 (2020) 104883.
10. L.L. Ma, J.J. Liang, S. Wang, B. Yang, M.Y. Chen, Y.C. Liu, Production of a bioflocculant from Klebsiella sp. OS-1 using brewery wastewater as a source, Environ. Technol. (United Kingdom), 40 (2019) 44–52.
11. Z.H. Yang, J. Huang, G.M. Zeng, M. Ruan, C.S. Zhou, L. Li, Z.G. Rong, Optimization of flocculation conditions for kaolin suspension using the composite flocculant of MBFGA1 and PAC by response surface methodology, Bioresour. Technol., 100 (2009) 4233–4239.
12. F. Ni, X.J. Peng, J.S. He, L. Yu, J. Zhao, Z.K. Luan, Preparation and characterization of composite bioflocculants in comparison with dual-coagulants for the treatment of kaolin suspension, Chem. Eng. J., 213 (2012) 195–202.
13. J.Y. Guo, C. Chen, Sludge conditioning using the composite of a bioflocculant and PAC for enhancement in dewaterability, Chemosphere, 185 (2017) 277–283.
14. L. Ramirez, S.R. Gentile, S. Zimmermann, S. Stoll, Comparative study of the effect of aluminum chloride, sodium alginate and chitosan on the coagulation of polystyrene micro-plastic particles, J. Colloid Sci. Biotechnol., 5 (2016) 190-198.
15. P.S.P. Batista, A.M.M.B. de Morais, M.M.E. Pintado, R.M.S.C. de Morais, Alginate: Pharmaceutical and Medical Applications, Springer, Cham, 2019, pp. 649–691.
16. Y.X. Zhao, Y. Wang, B.Y. Gao, H.K. Shon, J. Kim, Q.Y. Yue, Coagulation performance evaluation of sodium alginate used as coagulant aid with aluminum sulfate, iron chloride and titanium tetrachloride, Desalination, 299 (2012) 79–88.
17. M.L. Cabiguen, A.N. Soriano, A.P. Adornado, Reduction of water hardness from groundwater in Puerto Princesa City, Palawan, Philippines using electrocoagulation, IOP Conf. Ser.: Earth Environ. Sci., 191 (2018) 012029.
18. F. Zidane, P. Drogui, B. Lekhlif, J. Bensaid, Decolorization of dye-containing effluent using mineral coagulants produced by electrocoagulation, J. Hazard. Mater., 155 (2008) 153–163.
19. Z.G. Liu, X. Lu, J.K. Xie, B. Feng, Q.N. Han, Synthesis of a novel tunable lignin-based star copolymer and its flocculation performance in the treatment of kaolin suspension, Sep. Purif. Technol., 210 (2019) 355–363.
20. C.Z. Hu, S.Q. Wang, J.Q. Sun, H.J. Liu, J.H. Qu, An effective method for improving electrocoagulation process: optimization of Al13 polymer formation, Colloids Surf., A, 489 (2016) 234–240.
21. W.Z. Yu, L. Xu, K. Lei, J. Gregory, Effect of crystallization of settled aluminum hydroxide precipitate on “dissolved Al”, Water Res., 143 (2018) 346–354.
22. S. Thakur, S. Pandey, O.A. Arotiba, Development of a sodium alginate-based organic/inorganic superabsorbent composite hydrogel for adsorption of methylene blue, Carbohydr. Polym., 153 (2016) 34–46.
23. S. Wang, X. Huang, M. Elimelech, Complexation between dissolved silica and alginate molecules: implications for reverse osmosis membrane fouling, J. Membr. Sci., 605 (2020) 118109.
24. T. Cao, I. Szilagyi, T. Oncsik, M. Borkovec, G. Trefalt, Aggregation of colloidal particles in the presence of multivalent co- ions: the inverse Schulze−Hardy Rule, Langmuir, 31 (2015) 6610–6614.
25. N. Gongor, S. Dilmac, Difference in the influence of Na and Ca ions on the zeta potentials of anatolian Bentonitic Clays, J. Inclusion Phenom. Mol. Recognit. Chem., 26 (1996) 93–101.
26. W.-J. Lee, S.-Il. Pyun, Effects of hydroxide ion addition on anodic dissolution of pure aluminum in chloride ion-containing solution, Electrochim. Acta, 44 (1999) 4041–4049.
27. R. Sudoh, M.S. Islam, K. Sazawa, T. Okazaki, N. Hata, S. Taguchi, H. Kuramitz, Removal of dissolved humic acid from water by coagulation method using polyaluminum chloride (PAC) with calcium carbonate as neutralizer and coagulant aid, J. Environ. Chem. Eng., 3 (2015) 770–774.
28. B. Bina, M.H. Mehdinejad, M. Nikaeen, H.M. Attar, Effectiveness of chitosan as natural coagulant aid in treating turbid waters, Iran. J. Environ. Health Sci. Eng., 6 (2009) 247–252.
29. X. Xia, S.H. Lan, X.D. Li, Y.F. Xie, Y.J. Liang, P.H. Yan, Z.Y. Chen, Y.X. Xing, Characterization and coagulation– flocculation performance of a composite flocculant in highturbidity drinking water treatment, Chemosphere, 206 (2018) 701–708.
30. Q. Xiao, X. Gu, S. Tan, Drying process of sodium alginate films studied by two-dimensional correlation ATR-FTIR spectroscopy, Food Chem., 164 (2014) 179–184.
31. S.K. Papageorgiou, E.P. Kouvelos, E.P. Favvas, A.A. Sapalidis, G.E. Romanos, F.K. Katsaros, Metal-carboxylate interactions in metal-alginate complexes studied with FTIR spectroscopy, Carbohydr. Res., 345 (2010) 469–473.
32. B.-Y. Gao, Y. Wang, Q.-Y. Yue, J.-C. Wei, Q. Li, Color removal from simulated dye water and actual textile wastewater using a composite coagulant prepared by ployferric chloride and polydimethyldiallylammonium chloride, Sep. Purif. Technol., 54 (2007) 157–163.
33. Y. Wang, B. Gao, Q.Y. Yue, J.C. Wei, Q. Li, The characterization and flocculation efficiency of composite flocculant iron salts– polydimethyldiallylammonium chloride, Chem. Eng. J., 142 (2008) 175–181.
34. Z.L. Yang, X.X. Liu, W.Z. Zhao, S. Zhao, Y. Wang, Q.Y. Yue, Q. Li, Flocculation kinetics and floc characteristics of dye wastewater by polyferric chloride–poly-epichlorohydrin–dimethylamine composite flocculant, Sep. Purif. Technol., 118 (2013) 583–590.
35. X.X. Li, Y.J. Zhang, X.L. Zhao, N. Gao, T. Fu, The Characteristics of sludge from enhanced coagulation processes using PAC/PDMDAAC composite coagulants in treatment of micropolluted raw water, Sep. Purif. Technol., 147 (2015) 125–131.
36. M.J. Brandt, K.M. Johnson, A.J. Elphinston, D.D. Ratnayaka, Chapter 8 – Storage, Clarification and Chemical Treatment, M.J. Brandt, K.M. Johnson, A.J. Elphinston, D.D. Ratnayaka, Eds., Tworts Water Supply, 7th ed., Butterworth-Heinemann, Boston, USA, 2017, https://doi.org/10.1016/ b978-0-08- 100025-0.00008-9.
37. S.W.K. van den Burg, A.P. van Duijin, H. Bartelings, M.M. van Krimpen, M. Poelman, The economic feasibility of seaweed production in the North Sea, Aquacult. Econ. Manage., 20 (2016) 235–252.
38. M. Schwiderski, A. Kruse, Process design and economics of an aluminum chloride catalyzed organosolv process, Biomass Convers. Biorefin., 6 (2016) 335–345.
39. D. Donaldson, B. Raahauge, Essential Readings in Light Metals, Vol. 1, Alumina and Bauxite, Springer, Switzerland, 2017, p. 1169.
40. Tranches de facturation et tarifs, (n.d.). Available at: https:// client.lydec.ma/site/fr/tranches-de-facturation-et-tarifs-pro (accessed February 13, 2020)
41. C.Y. Hu, S.L. Lo, C.L. Chang, F.L. Chen, Y. De Wu, J.L. Ma, Treatment of highly turbid water using chitosan and aluminum salts, Sep. Purif. Technol., 104 (2013) 322–326.
42. C.Y. Chen, C.Y. Wu, Y.C. Chung, The coagulation characteristics of humic acid by using acid-soluble chitosan, water-soluble chitosan, and chitosan coagulant mixtures, Environ. Technol. (United Kingdom), 36 (2015) 1141–1146.