References

1. L.A. Viana, E. Düsman, V.E.P. Vicentini, Mutagenicity and cytotoxicity of liquid waste, press water and pond water, produced in the cassava flour industry, and of antitoxic sodium thiosulfate, J. Sci. Food Agric., 94 (2014) 453–458.
2. FAO (Food and Agriculture Organization of the United Nations), Save and Grow: Cassava, A Guide to Sustainable Production Intensification, Rome, 2013.
3. L. Sun, S. Wan, Z. Yu, Y. Wang, S. Wang, Anaerobic biological treatment of high strength cassava starch wastewater in a new type up-flow multistage anaerobic reactor, Bioresour. Technol., 104 (2012) 280–288.
4. S.O. Souza, L.C. Oliveira, A.D.M. Cavagis, W.G. Botero, Cyanogenic residues: environmental impacts, complexation with humic substances, and possible application as biofertilizer, Water Air Soil Pollut., 225 (2014) 2223–2235.
5. A.T. Campos, J. Daga, E.E. Rodrigues, G. Franzener, M.M.T. Suguiy, V.L.G. Syperreck, Residuary water treatment of fecularia by means of stabilization lagoons, Eng. Agríc., 26 (2006) 235–242.
6. B.K. Rajbhandari, A.P. Annachhatre, Anaerobic ponds treatment of starch wastewater: case study in Thailand, Bioresour. Technol., 95 (2004) 135–143.
7. E.G.C. Nasu, E. Pires, H.M. Formentini, C. Furlanetto, Effect of manipueira on Meloidogyne incognita through in vitro and in vivo essays on tomatoes in greenhouse, Trop. Plant. Pathol., 35 (2010) 32–36.
8. J. Zhang, J.Y. Xu, D.Q. Wang, N.Q. Ren, Anaerobic digestion of cassava pulp with sewage sludge inocula, Bioresour., 11 (2016) 451–465.
9. O. Kuczman, M.H.F. Tavares, S.D. Gomes, L.P.C. Guedes, G. Grisotti, Cassava starch extraction effluent treatment in a one phase tubular horizontal pilot reactor with support medium, Eng. Agríc., 34 (2014) 1270–1282.
10. E.G.C. Nasu, H.M. Formentini, C. Furlanetto, Effect of manipueira on tomato plants infected by the nematode Meloidogyne incognita, Crop. Prot., 78 (2015) 193–197.
11. M.R. Maróstica Jr, G.M. Pastore, Biotransformation of citronellol in rose-oxide using Cassava wastewater as a medium, Food Sci. Technol., 26 (2006) 690–696.
12. M. Nitschke, C. Ferraz, G.M. Pastore, Selection of microrganisms for biosurfactant production using agroindustrial wastes, Braz. J. Microbiol., 35 (2004) 81–85.
13. S. Chinwetkitvanich, M. Tuntoolvest, T. Panswad, Anaerobic decolorization of reactive dyebath effluents by a two-stage UASB system with tapioca as a co-substrate, Water Res., 34 (2000) 2223–2232.
14. G. Vidal, A. Carvalho, R. Méndez, J.M. Lema, Influence of the content in fats and proteins on the anaerobic biodegradability of dairy wastewaters, Bioresour. Technol., 74 (2000) 231–239.
15. P. Kaewkannetra, T. Imai, F.J. Garcia-Garcia, T.Y. Chiu, Cyanide removal from cassava mill wastewater using Azotobactor vinelandii TISTR 1094 with mixed microorganisms in activated sludge treatment system, J. Hazard. Mater., 172 (2009) 224–228.
16. S. Martín-Rilo, R.N. Coimbra, J. Martín-Villacorta, M. Otero, Treatment of dairy industry wastewater by oxygen injection: performance and outlay parameters from the full scale implementation, J. Clean. Prod., 86 (2015) 15–23.
17. R.F. Melo, P.A. Ferreira, A.T. Matos, H.A. Ruiz, L.B. Oliveira, Miscible displacement of basic cations from cassava processing wastewater in soil columns, Rev. Bras. Eng. Agríc. Ambient., 10 (2006) 456–465.
18. J.M. Aquino, G.F Pereira, R.C. Rocha-Filho, N. Bocchi, S.R. Biaggio, Combined coagulation and electrochemical process to treat and detoxify a real textile effluent, Water Air Soil Pollut., 227 (2016) 266–277.
19. M.I. Ashraf, M. Ateeb, M.H. Khan, N. Ahmed, Q. Mahmood, Zahidullah, Integrated treatment of pharmaceutical effluents by chemical coagulation and ozonation, Sep. Purif. Technol., 158 (2016) 383–386.
20. B.M. Costa Filho, V.M. Silva, J.O. Silva, A.E.H. Machado, A.G. Trovó, Coupling coagulation, flocculation and decantation with photo-Fenton process for treatment of industrial wastewater containing fipronil: Biodegradability and toxicity assessment, J. Environ. Manage., 174 (2016) 71–78.
21. X. Cui, D. Zhou, W. Fan, M. Huo, J.C. Crittenden, Z. Yu, P. Ju, Y. Wang, The effectiveness of coagulation for water reclamation from a wastewater treatment plant that has a long hydraulic and sludge retention times: A case study, Chemosphere, 157 (2016) 224–231.
22. L.F. Guerreiro, C.S.D. Rodrigues, R.M. Duda, R.A. Oliveira, R.A.R. Boaventura, L.M. Madeira, Treatment of sugarcane vinasse by combination of coagulation/flocculation and Fenton’s oxidation, J. Environ. Manage., 181 (2016) 237–248.
23. M. Jiménez-Tototzintle, I. Oller, A. Hernández-Ramírez, S. Malato, M.I. Maldonado, Remediation of agro-food industry effluents by biotreatment combined with supported TiO₂/H₂O₂ solar photo catalysis, Chem. Eng. J., 273 (2015) 205–213.
24. J. Rodríguez-Chueca, C. Amor, J.R. Fernandes, P.B. Tavares, M.S. Lucas, J.A. Peres, Treatment of crystallized-fruit wastewater by UV-A LED photo-Fenton and coagulation-flocculation, Chemosphere, 145 (2016) 351–359.
25. M. Umar, F. Roddick, L. Fan, Comparison of coagulation efficiency of aluminium and ferric-based coagulants as pre-treatment for UV-C/H₂O₂ treatment of wastewater RO concentrate, Chem. Eng. J., 284 (2016) 841–849.
26. J. Gomes, R. Costa, R.M. Quinta-Ferreira, R.C. Martins, Application of ozonation for pharmaceuticals and personal care products removal from water, Sci. Total Environ., 586 (2017) 265–283.
27. W. Subramonian, T.Y. Wu, S.P. Chai, Photo catalytic degradation of industrial pulp and paper mill effluent using synthesized magnetic Fe₂O₃-TiO₂: Treatment efficiency and characterizations of reused photo catalyst, J. Environ. Manage., 187 (2017) 298–310.
28. L.I. Doumic, P.A. Soares, M.A. Ayude, M. Cassanello, R.A.R Boaventura, V.J.P. Vilar, Enhancement of a solar photo-Fenton reaction by using ferrioxalate complexes for the treatment of a synthetic cotton-textile dyeing wastewater, Chem. Eng. J., 277 (2015) 86–96.
29. G.R. Ibáñez, J.L.C. López, B.E. García, J.A. Sánchez-Pérez, Controlling pH in biological depuration of industrial wastewater to enable micro pollutant removal using a further advanced oxidation process, J. Chem. Technol. Biotechnol., 89 (2014) 1274–1282.
30. S.A.S Melo, A.G. Trovó, I.R. Bautitz, R.F.P. Nogueira, Degradation of residual pharmaceuticals by advanced oxidation processes, Quím. Nova, 32 (2009) 188–197.
31. L. Carlos, D.O. Mártire, M.C. Gonzalez, J. Gomis, A. Bernabeu, A.M. Amat, A. Arques, Photochemical fate of a mixture of emerging pollutants in the presence of humic substances, Water Res., 46 (2012) 4732–4740.
32. C.A. Lutterbeck, M.L. Wilde, E. Baginska, C. Leder, E.L. Machado, K. Kümmerer, Degradation of 5-FU by means of advanced (photo)oxidation processes: UV/H₂O₂, UV/Fe²⁺/H₂O₂ and UV/TiO₂ - Comparison of transformation products, ready biodegradability and toxicity, Sci. Total Environ., 527 (2015) 232–245.
33. D. Shahidi, R. Roy, A. Azzouz, Advances in catalytic oxidation of organic pollutants – Prospects for thorough mineralization by natural clay catalysts, Appl. Catal. B., 174 (2015) 277–292.
34. A. Arslan, S. Veli, D. Bingöl, Use of response surface methodology for pretreatment of hospital wastewater by O₃/UV and O₃/UV/H₂O₂ processes, Sep. Purif. Technol., 132 (2014) 561–567.
35. S.H. Lin, C.H. Wang, Industrial wastewater treatment in a new gas-induced ozone reactor, J. Hazard. Mater., B., 98 (2003) 295–309.
36. C.Y. Teh, T.Y. Wu, J.C. Juan, An application of ultrasound technology in synthesis of titania-based photocatalyst for degrading pollutant, Chem. Eng. J., 317 (2017) 586–612.
37. J.P. Pocostales, P. Álvarez, F.J. Beltrán, Kinetic modeling of granular activated carbon promoted ozonation of a food-processing secondary effluent, Chem. Eng. J., 183 (2012) 395–401.
38. E.J.R. Almeida, C.R. Corso, Acid Blue 161: Decolorization and toxicity analysis after microbiological treatment, Water Air Soil Pollut., 227 (2016) 468–476.
39. J.R. Moraes Jr, E.D. Bidoia, Colour degradation of simulated textile efluente by electrolytic treatment and ecotoxicological evaluation, Water Air Soil Pollut., 226 (2015) 402–407.
40. S.M. Palácio, F.R. Espinoza-Quiñones, A.N. Módenes, C.C. Oliveira, F.H. Borba, F.G. Silva Jr., Toxicity assessment from electro-coagulation treated-textile dye wastewaters by bioassays, J. Hazard. Mater., 172 (2009) 330–337.
41. M.C. Silva, J.A. Torres, L.R. Vasconcelos de Sá, P.M.B. Chagas, V.S. Ferreira-Leitão, A.D. Corrêa, The use of soybean peroxidase in the decolourization of Remazol Brilliant Blue R and toxicological evaluation of its degradation products, J. Mol. Catal. B: Enzym., 89 (2013) 122–129.
42. APHA. Standard methods for the examination of water and wastewater. 20 ed. Washington: APHA/AWWA, 1998.
43. W. Horwitz, Official Methods of Analysis of AOAC International. V. 2. 17th ed. AOAC International, 2000.
44. ABNT (Brazilian Association of Technical Standards): NBR 10561. Waters - Determination of Sedimentable Residue (sedimentable solids) - Cone Imhoff Method. Rio de Janeiro, 1988.
45. S. Suarez, J.M. Lema, F. Omil, Pre-treatment of hospital wastewater by coagulation-flocculation and flotation, Bioresour. Technol., 100 (2009) 2138–2146.
46. J. Guzmán, R. Mosteo, J. Sarasa, J.A. Alba, J.L. Ovelleiro, Evaluation of solar photo-Fenton and ozone based processes as citrus wastewater pre-treatments, Sep. Purif. Technol., 164 (2016) 155–162.
47. B. Riaño, M. Coca, M.C. García-González, Evaluation of Fenton method and ozone-based processes for colour and organic matter removal from biologically pre-treated swine manure, Chemosphere, 117 (2014) 193–199.
48. W. Cao, M. Mehrvar, Slaughterhouse wastewater treatment by combined anaerobic baffled reactor and UV/H₂O₂ processes, Chem. Eng. Res. Des., 89 (2011) 1136–1143.
49. H.S. Fogler. Elements of Chemical Reaction Engineering, 5th ed., Kendallville, Prentice Hall, Kendallville, 2016.
50. B.N. Meyer, N.R. Ferrigni, J.E. Putnam, L.B. Jacobsen, D.E. Nichols, J.L. McLaughlin, Brine shrimp: A convenient general bioassay for active plant constituents, Planta Med., 45 (1982) 35–36.
51. X. Colin, J.L. Farinet, O. Rojas, D. Alazard, Anaerobic treatment of cassava starch extraction wastewater using a horizontal flow with banboo as support, Bioresour. Technol., 98 (2007) 1602–1607.
52. S. Damasceno, M.P. Cereda, G.M. Pastore, J.G. Oliveira, Production of volatile compounds by Geotrichum fragrans using cassava wastewater as substrate, Process Biochem., 39 (2003) 411–414.
53. F.M. Ferraz, A.T. Bruni, V.L. Del Bianchi, Performance of an anaerobic baffled reactor (ABR) in treatment of Cassava wastewater, Braz. J. Microbiol., 40 (2009) 48–53.
54. M.M.F. Ribas, A.C. Barana, Start-up adjustment of a plug-flow digester for cassava wastewater (manipueira) treatment, Sci. Agric., 60 (2003) 223–229.
55. A.G. Magalhães, M.M. Rolim, A.S. Duarte, E.M.R. Pedrosa and E.F.F. Silva, Chemical attributes of soil and dry mass accumulation of maize fertilized with cassava wastewater, Eng. Agríc., 35 (2015) 458–469.
56. P.L. Paulo, T.A. Colman-Novaes, L.D.S. Obregão, M.Á. Boncz, Anaerobic digestion of cassava wastewater pre-treated by fungi, Appl. Biochem. Biotechnol., 169 (2013) 2457–2466.
57. R. Andreozzi, V. Caprio, A. Insola, R. Marotta, Advanced oxidation processes (AOP) for water purification and recovery, Catal. Today, 53 (1999) 51–59.
58. C.Y. Teh, P.M. Budiman, K.P.Y. Shak, T.Y. Wu, Recent advancement of coagulation−flocculation and its application in wastewater treatment, Ind. Eng. Chem. Res., 55 (2016) 4363–4389.
59. H. Tomiyasu, H. Fukutomi, G. Gordon, Kinetics and mechanism of ozone decomposition in basic aqueous solution, Inorg. Chem., 24 (1985) 2962–2966.
60. K. Thirugnanasambandham, V. Sivakumar, K. Shine, Performance evaluation of chemical coagulation process to treat bagasse wastewater: modeling and optimization, Pol. J. Chem. Technol., 18 (2016) 99–104.
61. M.R. Assalin, E.S. Almeida, M.A. Rosa, S.G. Moraes, N. Duran, Application of ozonation process in industrial wastewaters: textile, kraft E1 and whey effluents, Environ. Technol., 25 (2004) 867–872.
62. M.S. Lucas, J.A. Peres, Y.B. Lan, G. Li Puma, Ozonation kinetics of winery wastewater in a pilot-scale bubble column reactor, Water Res., 43 (2009) 1523–1532.
63. M.S. Lucas, J.A. Peres, G. Li Puma, Treatment of winery wastewater by ozone-based advanced oxidation processes (O₃, O₃/UV and O₃/UV/H₂O₂) in a pilot-scale bubble column reactor and process economics, Sep. Purif. Technol., 72 (2010) 235–241.
64. W. Subramonian, T.Y. Wu, Effect of enhancers and inhibitors on photo catalytic sunlight treatment of methylene blue, Water Air Soil Pollut., 225 (2014) 1922–1936.
65. A. Matilainen, M. Sillanpää, Removal of natural organic matter from drinking water by advanced oxidation processes, Chemosphere, 80 (2010) 351–365.
66. G. Boczkaj, A. Fernandes, Wastewater treatment by means of advanced oxidation processes at basic pH conditions: A review, Chem. Eng. J., 320 (2017) 608–633.
67. A.Y. Lin, C. Lin, P.A. Chiou, P.A. Hong, O₃ and O₃/H₂O₂ treatment of sulfonamide and macrolide antibiotics in wastewater, J. Hazard. Mater., 171 (2009) 452–458.
68. C.R. Costa, P. Olivi, C.M.R. Botta, E.L.G. Espíndola, Toxicity in aquatic environments: discussion and evaluation methods, Quím. Nova, 31 (2008) 1820–1830.
69. C.B. Amarante, A.H. Müller, M.M. Póvoa, M.F. Dolabela, Phytochemical study bioassay-guided by tests of toxicity on Artemia salina and antiplasmodial activity from stem of aninga (Montrichardia linifera), Acta Amaz., 41 (2011) 431–434.