References

  1. M. Pivokonsky, J. Naceradska, I. Kopecka, M. Baresova, B. Jefferson, X. Li, R.K. Henderson, The impact of algogenic organic matter on water treatment plant operation and water quality: a review, Crit. Rev. Environ. Sci. Technol., 46 (2016) 291–335.
  2. L.A. Coral, A. Zamyadi, B. Barbeau, F.J. Bassetti, F.R. Lapolli, M. Prévost, Oxidation of Microcystis aeruginosa and Anabaena flosaquae by ozone: impacts on cell integrity and chlorination by-product formation, Water Res., 47 (2013) 2983–2994.
  3. G. Joh, Y.S. Choi, J.K. Shin, J. Lee, Problematic algae in the sedimentation and filtration process of water treatment plants, J. Water Supply Res. Technol., 60 (2011) 219–230.
  4. L. Wang, L. Liu, B. Zheng, Eutrophication development and its key regulating factors in a water-supply reservoir in North China, J. Environ. Sci., 25 (2013) 962–970.
  5. C.J. Pestana, P.J. Reeve, E. Sawade, C.F. Voldoire, K. Newton, R. Praptiwi, L. Collingnon, J. Dreyfus, P. Hobson, V. Gaget, G. Newcombe, Fate of cyanobacteria in drinking water treatment plant lagoon supernatant and sludge, Sci. Total Environ., 565 (2016) 1192–1200.
  6. G. Peng, R.M. Martin, S.P. Dearth, X. Sun, G.L. Boyer, S.R. Campagna, S. Lin, S.W. Wilhelm, Seasonally relevant cool temperatures interact with N chemistry to increase microcystins produced in lab cultures of Microcystis aeruginosa NIES-843, Environ. Sci. Technol., 52 (2018) 4127–4136.
  7. H.W. Paerl, T.G. Otten, Harmful cyanobacterial blooms: causes, consequences, and controls, Microb. Ecol., 65 (2013) 995–1010.
  8. V. Gitis, N. Hankins, Water treatment chemicals: trends and challenges, J. Water Process Eng., 25 (2018) 34–38.
  9. J.J. Chen, H.H. Yeh, I.C. Tseng, Effect of ozone and permanganate on algae coagulation removal - pilot and bench scale tests, Chemosphere, 74 (2009) 840–846.
  10. J.L. Lin, L.C. Hua, Y. Wu, C. Huang, Pretreatment of algaeladen and manganese-containing waters by oxidation-assisted coagulation: effects of oxidation on algal cell viability and manganese precipitation, Water Res., 89 (2016) 261–269.
  11. A. Meglič, A. Pecman, T. Rozina, D. Leštan, B. Sedmak, Electrochemical inactivation of cyanobacteria and microcystin degradation using a boron-doped diamond anode – a potential tool for cyanobacterial bloom control, J. Environ. Sci., 53 (2017) 248–261.
  12. Z. Liu, H. Wei, A. Li, H. Yang, Enhanced coagulation of low-turbidity micro-polluted surface water: properties and optimization, J. Environ. Manage., 233 (2018) 739–747.
  13. S.J. Tesh, T.B. Scott, Nano-composites for water remediation: a review, Adv. Mater., 26 (2014) 6056–6068.
  14. W. Shi, W. Tan, L. Wang, G. Pan, Removal of Microcystis aeruginosa using cationic starch modified soils, Water Res., 97 (2016) 19–25.
  15. A.J. Hargreaves, P. Vale, J. Whelan, L. Alibardi, C. Constantino, G. Dotro, E. Cartmell, P. Campo, Coagulation–flocculation process with metal salts, synthetic polymers and biopolymers for the removal of trace metals (Cu, Pb, Ni, Zn) from municipal wastewater, Clean Technol. Environ. Policy, 20 (2018) 393–402.
  16. P.K. Roy, A. Majumder, G. Banerjee, M.B. Roy, S. Pal, A. Mazumdar, Removal of arsenic from drinking water using dual treatment process, Clean Technol. Environ. Policy, 17 (2015) 1065–1076.
  17. H. Betatache, A. Aouabed, N. Drouiche, H. Lounici, Conditioning of sewage sludge by prickly pear cactus (Opuntia ficus Indica) juice, Ecol. Eng., 70 (2014) 465–469.
  18. L. Chen, C. Wang, W. Wang, J. Wei, Optimal conditions of different flocculation methods for harvesting Scenedesmus sp. cultivated in an open-pond system, Bioresour. Technol., 133 (2013) 9–15.
  19. S.Y. Choy, K.M.N. Prasad, T.Y. Wu, R.N. Ramanan, A review on common vegetables and legumes as promising plant-based natural coagulants in water clarification, Int. J. Environ. Sci. Technol., 12 (2013) 367–390.
  20. M. Pritchard, T. Craven, T. Mkandawire, A.S. Edmondson, J.G. O’Neill, A comparison between Moringa oleifera and chemical coagulants in the purification of drinking water - an alternative sustainable solution for developing countries, Phys. Chem. Earth, 35 (2010) 798–805.
  21. X. Li, H. Pei, W. Hu, P. Meng, F. Sun, G. Ma, X. Xu, Y. Li, The fate of Microcystis aeruginosa cells during the ferric chloride coagulation and flocs storage processes, Environ. Technol., 36 (2015) 920–928.
  22. T.P. Flaten, Aluminium as a risk factor in Alzheimer’s disease, with emphasis on drinking water, Brain Res. Bull., 55 (2001) 187–196.
  23. G.R. Xu, Z.C. Yan, Y.C. Wang, N. Wang, Recycle of alum recovered from water treatment sludge in chemically enhanced primary treatment, J. Hazard. Mater., 161 (2009) 663–669.
  24. J. Keeley, P. Jarvis, S.J. Judd, Coagulant recovery from water treatment residuals: a review of applicable technologies, Crit. Rev. Environ. Sci. Technol., 44 (2014) 2675–2719.
  25. H.G. Peterson, S.E. Hrudey, I.A. Cantin, T.R. Perley, S.L. Kenefick, Physiological toxicity, cell membrane damage and the release of dissolved organic carbon and geosmin by Aphanizomenon flos-aquae after exposure to water treatment chemicals, Water Res., 29 (1995) 1515–1523.
  26. F. Sun, H.Y. Pei, W.R. Hu, C.X. Ma, The lysis of Microcystis aeruginosa in AlCl3 coagulation and sedimentation processes, Chem. Eng. J., 193 (2012) 196–202.
  27. F. Sun, H.Y. Pei, W.R. Hu, X.Q. Li, C.X. Ma, R.T. Pei, The cell damage of Microcystis aeruginosa in PACl coagulation and floc storage processes, Sep. Purif. Technol., 115 (2013) 123–128.
  28. V. Saritha, M.K. Karnena, B.K. Dwarapureddi, “Exploring natural coagulants as impending alternatives towards sustainable water clarification” – a comparative studies of natural coagulants with alum, J. Water Process Eng., 32 (2019) 100982.
  29. H.H. Ngo, W. Guo, Z. Chen, T.C. Zhang, Green Technologies for Sustainable Water Management : Introduction and Overview, American Society of Civil Engineers, 2016.
  30. Y.T. Hameed, A. Idris, S.A. Hussain, N. Abdullah, A tanninbased agent for coagulation and flocculation of municipal wastewater: chemical composition, performance assessment compared to polyaluminum chloride, and application in a pilot plant, J. Environ. Manage., 184 (2016) 494–503.
  31. Z.Z. Abidin, N. Ismail, R. Yunus, I.S. Ahamad, A. Idris, A preliminary study on Jatropha curcas as coagulant in wastewater treatment, Environ. Technol., 32 (2011) 971–977.
  32. S.Y. Choy, K.M.N. Prasad, T.Y. Wu, M.E. Raghunandan, R.N. Ramanan, Utilization of plant-based natural coagulants as future alternatives towards sustainable water clarification, J. Environ. Sci., 26 (2014) 2178–2189.
  33. K. Ghebremichael, J. Abaliwano, G. Amy, Combined natural organic and synthetic inorganic coagulants for surface water treatment, J. Water Supply Res. Technol. AQUA, 58 (2009) 267–276.
  34. R. Sanghi, B. Bhatttacharya, V. Singh, A. Testing, Cassia angustifolia seed gum as an effective natural coagulant for decolourisation of dye solutions green context, Green Chem., 4 (2002) 252–254.
  35. M.B. Šćiban, M.T. Klašnja, J.L. Stojimirović, Investigation of coagulation activity of natural coagulants from seeds of different leguminose species, Acta Period. Technol., 266 (2005) 81–90.
  36. S. Katayon, M.J. Megat Mohd Noor, M. Asma, L.A. Abdul Ghani, A.M. Thamer, I. Azni, J. Ahmad, B.C. Khor, A.M. Suleyman, Effects of storage conditions of Moringa oleifera seeds on its performance in coagulation, Bioresour. Technol., 97 (2006) 1455–1460.
  37. G.S. Madrona, G.B. Serpelloni, A.M.V. Vieira, L. Nishi, K.C. Cardosso, R. Bergamasco, Study of the effect of saline solution on the extraction of the Moringa oleifera seed’s active component for water treatment, Water Air Soil Pollut., 211 (2010) 409–415.
  38. L.O.R. Moreti, P.F. Coldebella, F.P. Camacho, M.C. Bongiovani, A.H. Pereira de Souza, A.K. Gohara, M. Matsushita, M.F. Silva, L. Nishi, R. Bergamasco, Removal of Anabaena flos-aquae in water treatment process using Moringa oleifera and assessment of fatty acid profile of generated sludge, Environ. Technol., 37 (2016) 1408–1417.
  39. D.V. Kukić, M.B. Šćiban, J.M. Prodanović, A.N. Tepić, M.A. Vasić, Extracts of fava bean (Vicia faba L.) seeds as natural coagulants, Ecol. Eng., 84 (2015) 229–232.
  40. N. Barka, K. Ouzaouit, M. Abdennouri, M. El Makhfouk, Dried prickly pear cactus (Opuntia ficus indica) cladodes as a low-cost and eco-friendly biosorbent for dyes removal from aqueous solutions, J. Taiwan Inst. Chem. Eng., 44 (2013) 52–60.
  41. D. Sano, S. Ishifuji, Y. Sato, Y. Imae, T. Takaara, Y. Masago, Identification and characterization of coagulation inhibitor proteins derived from cyanobacterium Microcystis aeruginosa, Chemosphere, 82 (2011) 1096–1102.
  42. M. Douma, Y. Ouahid, F.F. Del Campo, M. Loudiki, K. Mouhri, B. Oudra, Identification and quantification of cyanobacterial toxins (microcystins) in two Moroccan drinking-water reservoirs (Mansour Eddahbi, Almassira), Environ. Monit. Assess., 160 (2010) 439–450.
  43. M. Loudiki, B. Oudra, B. Sabour, B. Sbiyyaa, V. Vasconcelos, Taxonomy and geographic distribution of potential toxic cyanobacterial strains in Morocco, Ann. Limnol., 38 (2002) 101–108.
  44. S. Vishali, R. Karthikeyan, Cactus Opuntia (ficus-indica): an ecofriendly alternative coagulant in the treatment of paint effluent, Desal. Water Treat., 56 (2015) 1489–1497.
  45. T.K.F.S. Freitas, V.M. Oliveira, M.T.F. De Souza, H.C.L. Geraldino, V.C. Almeida, S.L. Fávaro, J.C. Garcia, Optimization of coagulation–flocculation process for treatment of industrial textile wastewater using okra (A. esculentus) mucilage as natural coagulant, Ind. Crop. Prod., 76 (2015) 538–544.
  46. F. Sher, A. Malik, H. Liu, Industrial polymer effluent treatment by chemical coagulation and flocculation, J. Environ. Chem. Eng., 1 (2013) 684–689.
  47. K. Ennaciri, A. Baçaoui, M. Sergent, A. Yaacoubi, Application of fractional factorial and Doehlert designs for optimizing the preparation of activated carbons from Argan shells, Chemom. Intell. Lab. Syst., 139 (2014) 48–57.
  48. T.J. Napier-Munn, Statistical methods to compare batch flotation grade-recovery curves and rate constants, Miner. Eng., 34 (2012) 70–77.
  49. D. Mathieu, J. Nony, R. Phan-Tan-Luu, New Efficient Methodology for Research using Optimal Design (NEMRODW) Software, LPRAI, University, Aix-Marseille III, France, 2000.
  50. H.K. Lichtenthaler, A.R. Wellburn, Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents, Biochem. Soc. Trans., 11 (1983) 591–592.
  51. M. Dubois, K.A. Gilles, J.K. Hamilton, P.A. Rebers, F. Smith, Colorimetric method for determination of sugars and related substances, Anal. Chem., 28 (1956) 350–356.
  52. H.F. Bradford, G.W. Bennett, A.J. Thomas, Depolarizing stimuli and the release of physiologically active amino acids from suspensions of mammalian synaptosomes, J. Neurochem., 21 (1973) 495–505.
  53. V.L. Singleton, J.A. Rossi, Colorimetry of total phenolics with phosphomolybdic-phosphotungstic acid reagents, Am. J. Enol. Vitic., 16 (1965) 144–158.
  54. W. Horwitz, Methods in food analysis. Physical, chemical and instrumental methods of analysis, J. Assoc. Off. Anal. Chem., 54 (1970) 244.
  55. T. Bahorun, B. Gressier, F. Trotin, C. Brunet, T. Dine, M. Luyckx, J. Vasseur, M. Cazin, J.C. Cazin, M. Pinkas, Oxygen species scavenging activity of phenolic extracts from hawthorn fresh plant organs and pharmaceutical preparations, Arzneimittelforschung, 46 (1996) 1086–1089.
  56. A.I. Mohamed, P.A.J. Perera, Y.S. Hafez, New chromophore for phytic acid determination, Cereal Chem., 63 (1986) 475–478.
  57. J. Liu, M. Yan, Y.K. Zhang, K.F. Du, Study of glutamate-modified cellulose beads for Cr(III) adsorption by response surface methodology, Ind. Eng. Chem. Res., 50 (2011) 10784–10791.
  58. G. Enaime, A. Baçaoui, A. Yaacoubi, M. Wichern, M. Lübken, Olive mill wastewater pretreatment by combination of filtration on olive stone filters and coagulation–flocculation, Environ. Technol., 40 (2019) 2135–2146.
  59. M.V. Smoluchowski, Grundriß der koagulationskinetik kolloider Lösungen, Kolloid Z., 21 (1917) 98–104.
  60. S. Dubey, M. Agarwal, A.B. Gupta, Experimental investigation of Al–F species formation and transformation during coagulation for fluoride removal using alum and PACl, J. Mol. Liq., 266 (2018) 349–360.
  61. Q.V. Ly, L.D. Nghiem, J. Cho, J. Hur, Insights into the roles of recently developed coagulants as pretreatment to remove effluent organic matter for membrane fouling mitigation, J. Membr. Sci., 564 (2018) 643–652.
  62. S. Sun, F. Bun, X. Huang, S. Zhao, H. Dong, B. Gao, Q. Yue, L. Feng, Y. Wang, Q. Li, Effects of epichlorohydrin–dimethylamine on coagulation and membrane performance of ferric chloride in coagulation–ultrafiltration hybrid process, Chem. Eng. J., 280 (2015) 634–642.
  63. V. Onen, P. Beyazyuz, E. Yel, Removal of turbidity from travertine processing wastewaters by coagulants, flocculants and natural materials, Mine Water Environ., 37 (2018) 482–492.
  64. X. Wang, X. Wang, Z. Wei, S. Zhang, Potent removal of cyanobacteria with controlled release of toxic secondary metabolites by a titanium xerogel coagulant, Water Res., 128 (2018) 341–349.
  65. J.L. Lin, J.R. Pan, C. Huang, Enhanced particle destabilization and aggregation by flash-mixing coagulation for drinking water treatment, Sep. Purif. Technol., 115 (2013) 145–151.
  66. J. Nan, Z. Wang, M. Yao, Y. Yang, X. Zhang, Characterization of re-grown floc size and structure: effect of mixing conditions during floc growth, breakage and re-growth process, Environ. Sci. Pollut. Res. Int., 23 (2016) 23750–23757.
  67. J. Zhang, F. Zhang, Y. Luo, H. Yang, A preliminary study on cactus as coagulant in water treatment, Process Biochem., 41 (2006) 730–733.
  68. D.V. Kukić, M.B. Šćiban, A.N. Tepić, J. M. Prodanović, Influence of the composition of common bean extracts on their coagulation ability, Acta Period. Technol., 42 (2011) 71–79.
  69. S. Bensadón, D. Hervert-Hernández, S.G. Sáyago-Ayerdi, I. Goñi, By-products of Opuntia ficus-indica as a source of antioxidant dietary fiber, Plant Foods Hum. Nutr., 65 (2010) 210–216.
  70. M.A. Ayadi, W. Abdelmaksoud, M. Ennouri, H. Attia, Cladodes from Opuntia ficus indica as a source of dietary fiber: effect on dough characteristics and cake making, Ind. Crops Prod., 30 (2009) 40–47.
  71. K. Crépon, P. Marget, C. Peyronnet, B. Carrouée, P. Arese, G. Duc, Nutritional value of faba bean (Vicia faba L.) seeds for feed and food, Field Crop. Res., 115 (2010) 329–339.
  72. A. Ndabigengesere, K.S. Narasiah, B.G. Talbot, Active agents and mechanism of coagulation of turbid waters using Moringa oleifera, Water Res., 29 (1995) 703–710.
  73. K.A. Ghebremichael, K.R. Gunaratna, G. Dalhammar, Singlestep ion exchange purification of the coagulant protein from Moringa oleifera seed, Appl. Microbiol. Biotechnol., 70 (2006) 526–532.
  74. W. Fink, Identifizierung, Reindarstellung und Strukturaufklärung Flockungsaktiver Wirkstoffe aus Höheren Pflanzen zur Wasserreinigung, Doctoral Thesis, 1984.
  75. T. Okuda, A.U. Baes, W. Nishijima, M. Okada, Isolation and characterization of coagulant extracted from Moringa oleifera seed by salt solution, Water Res., 35 (2001) 405–410.
  76. M.S. Özacar, I.A. Engil, The use of tannins from turkish acorns (Valonia) in water treatment as a coagulant and coagulant aid, Turk. J. Eng. Environ. Sci., 26 (2002) 255–264.
  77. S.M. Miller, E.J. Fugate, V.O. Craver, J.A. Smith, J.B. Zimmerman, Toward understanding the efficacy and mechanism of Opuntia spp. as a natural coagulant for potential application in water treatment, Environ. Sci. Technol., 42 (2008) 4274–4279.