References

1. F.J.L. Marinho, E.N. Rocha, E.A. Souto, M.P. Cruz, A.C. Tavares, S.A. Santos, F. Marcovicz, Solar distiller designed to provide drinking water for families of family-based farmers, Braz. J. Agroecol., 7 (2012) 53–60.
2. R.E. Foster, W. Amos, S. Eby, Ten Years of Solar Distillation Application Along the US-Mexico Border, Solar World Congress, International Solar Energy Society, Orlando, Florida, August 11, 2005.
3. H. Utermöhl, Zur Vervollkommung der quantitativen Phytoplankton Metodik, Mitt. Int. Ver. Theor. Argew. Limnol., 9 (1958) 1–38.
4. S. Brooke, G. Newcombe, B. Nicholson, G. Klass, Decrease in toxicity of microcystins LA and LR in drinking water by ozonation, Toxicon, 48 (2006) 1054–1059.
5. H. Wang, L. Ho, D.M. Lewis, J.D. Brookes, G. Newcombe, Discriminating and assessing adsorption and biodegradation removal mechanisms during granular activated carbon filtration of microcystin toxins, Water Res., 8 (2007) 4262–4270.
6. APHA, Standard Methods for the Examination of Water and Wastewater, 22nd ed., American Public Health Association, American Water Works Association, Water Pollution Control Federation, Washington, DC, 2012.
7. L. Di Bernardo, A. Minillo, A.D.B. Dantas, Blooms of Algae and Cyanobacteria: Their Influences on Water Quality and Treatment Technologies, LDiBe, São Carlos, 2010.
8. Anvisa, National Health Surveillance Agency, Resolution RE n° 899, of May 29, 2003.
9. Inmetro – National Institute of Metrology, Standardization and Industrial Quality, Guidance on Validation of Chemical Testing Methods, DOQ-CGCRE-008, 2016.
10. Brazil, Resolution No. 899, of May 29, 2003, Guide for Validation of Analytical and Bioanalytical Methods, Collegiate Directorate of the National Health Surveillance Agency, Official Gazette of the Federative Republic of Brazil, Brasília, DF, 2 Jun. 2003.
11. M.R. Rajamanickam, A. Ragupathy, Influence of water depth on internal heat and mass transfer in a double slope solar still, Energy Procedia, 14 (2012) 1701–1708.
12. Brazil, Ordinance No. 2914 of December 12 of the Ministry of Health, Provides for the Control and Surveillance Procedures of the Quality of Water for Human Consumption and Its Standard of Potability, Official Diary of the Union; Executive Power, Brasília, DF, December 14, 2011, Section 1, 2011, pp. 39–46.
13. H. Al-Hinai, M.S. Al-Nassri, B.A. Jubran, Effect of climatic, design and operational parameters on the yield
    of a simple solar still, Energy Convers. Manage., 43 (2002) 1639–1650.
14. M. Von Sperling, Principles of Biological Wastewater Treatment – Introduction to Water Quality and Sewage Treatment, 3rd ed., Belo Horizonte: Department of Sanitary and Environmental Engineering – UFMG, 2005, 452 p.
15. G. Göransson, M. Larson, D. Bendz, Variation in turbidity with precipitation and flow in a regulated river system – river Göta Älv, SW Sweden, Hydrol. Earth Syst. Sci., 17 (2013) 2529–2542.
16. W.A. Wurts, Understanding Water Hardness, World Aquaculture, Malden, 1993, pp. 1–18.
17. Brazil, Ministry of Health, Health Surveillance Secretariat, Water Quality Monitoring and Control for Human Consumption/Ministry of Health, Health Surveillance Secretariat, Ministry of Health, Brasília, 281, p. 2006.
18. K. Suzuki, Y. Tanaka, T. Osada, M. Waki, Removal of phosphate, magnesium and calcium from swine wastewater through crystallization enhanced by aeration, Water Res., 36 (2002) 2991–2998.
19. A. Dimirkou, M.K. Doulab, Use of clinoptilolite and an Fe-overexchanged clinoptilolite in Zn²⁺ and Mn²⁺ removal from drinking water, Desalination, 224 (2008) 280–292.
20. I. Ozcurt, M. Altinbas, O. Arikan, Pollution Problems of Sanitary Landfill Leachate and Treatment Techniques, In: Civil Management, Human and Enviromental Problems Symposium, Istambul, Turkey, Proceedings, 1999.