Abstract
The domestic use of powder detergents designed for cleaning fabrics may contribute to the phosphorus input in sewage. Hence, the regulation of the use of phosphorus in these products is considered a measure that can improve water quality, in addition to contributing to the preservation of nutrient reserves and promoting the reduction of costs involved in the implementation, operation, and maintenance of sewage systems. To evaluate the contribution of detergents in the total amount of phosphorus present in the wastewater based on the current scenario experienced in Brazil, analyses were performed in the tributary wastewater in three wastewater treatment plants (WWTPs) situated in different regions of the state of São Paulo, Brazil, as well as the analysis of 30 samples of detergents sold in the national territory. We verified that the products currently sold in the country have low concentration of phosphorus, up to 0.01 % by weight. Thus, the contribution of detergents to the total amount of phosphorus present in the wastewater of the studied WWTPs is fairly low, in the range of 0.0014 g/inh.day. Such contribution corresponds to about 0.17 % of the total amount of phosphorus present in the wastewater. Results show that it is necessary to revise and to reduce the values stipulated by existing legislation in order to regulate the operating conditions currently practiced by the productive sector and to provide the maintenance of this relevant source of phosphorus in sewage under control.
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References
Abipla - Associação Brasileira das Indústrias de Produtos de Limpeza e Afins. (2013). Anuário. São Paulo: ABIPLA. <http://www.abipla.org.br/novo/anuario.aspx>. Accessed 04 abr. 2013
ANA-Agência Nacional das Águas. (2011). Guia nacional de coleta e preservação de amostras: água, sedimento, comunidades aquáticas e efluentes líquidos. Brasília, ANA. <http://www.cetesb.sp.gov.br/userfiles/file/laboratorios/publicacoes/guia-nacional-coleta-2012.pdf>. Accessed 31 mai. 2013.
Angelini, R., Bini, L. M., & Starling, L. R. M. (2008). Efeitos de diferentes intervenções no processo de eutrofização do lago Paranoá (Brasília – DF). Oecologia Brasiliensis, 12(3), 564–571.
APHA - American Public Health Association. (2005). Standard methods for the Examination of water and wastewater (21ªth ed.). Washington: APHA-AWWA-WEF.
Branco, S. M., & Rocha, A. A. (1987). Elementos de ciência do ambiente. São Paulo: CETESB/ASCETESB.
Brasil. (2005). Ministério do Meio Ambiente. Resolução n° 359, de 29 de abril de 2005. Dispõe sobre a regulamentação do teor de fósforo em detergentes em pó para uso em todo o território nacional e dá outras providências. Brasília, DF: Diário Oficial da União, Seção 1, p. 63–64. <http://www.mma.gov.br/port/conama/res/res05/res35905.pdf>. Accessed 10 Jan. 2009.
Brasil. Ministério da Saúde. Agência Nacional de Vigilância Sanitária – ANVISA. Resolução Normativa n° 1, de 25 de outubro de 1978. Aprova as normas a serem obedecidas pelos detergentes e seus congêneres. <http://www.anvisa.gov.br/anvisalegis/resol/01_78.htm>. Accessed 22 Apr. 2011
BSI – British Standards Institution. (1983). Analysis of formulated detergents. Part 3: Quantitative test methods. Section 3.19: Method for determination of total phosphorus (v) oxid content. London: BSI, 2010, BS ISO 690:2010
Chorus, I. & Bartram, J. (1999). Water quality assessments: a guide to use of biota, sediments and water in environmental monitoring. Cambridge: UNESCO/WHO/UNEP. <http://www.who.int/water_sanitation_health/resources/resquality/en/index.html>. Accessed 25 Nov 2007
Comber, S., Gardner, M., Georges, K., Blackwood, D., & Gilmour, D. (2013). Domestic source of phosphorus to sewage treatment works. Environmental Technology, 34(2), 1349–1359. doi:10.1080/09593330.2012.747003.
Conama-Conselho Nacional do Meio Ambiente. Grupo de Monitoramento do Fósforo. (2009) Metodologia de avaliação das reduções das concentrações de fósforo com base na Resolução CONAMA n° 359. Brasília, DF: CONAMA. <http://www.mma.gov.br/port/conama/processos/1B20DDC4/Metfosforo_%20Conama359_28ago09.pdf>. Accessed 25 May 2011
Conama-Conselho Nacional do Meio Ambiente. (2010). Grupo de Monitoramento do Fósforo. Relatório Final. Brasília: CONAMA. <http://www.mma.gov.br/port/conama/reuniao/dir1242/RelatFinalFosforo_99RO_25e26ago10.pdf>. Accessed 25 May 2011
Devey, D. G. & Harkness, N. (1975). The significance of man-made sources of phosphorus: detergents and sewage. In S. H. Jenkins, k. j. Ives (Ed.), Phosphorus in fresh water and the marine environment (pp. 35–54). London: Pergamon Press Officers
Friedman, M. (2004). Detergents and the environment: historical review. In U. Zoller (Ed.), Handbook of detergents - Part B: Environmental Impact (pp. 11–34). New York: Marcel Dekker.
Glennie, E. B., Littlejohn, C., Gendebien, A., Hayes, A., Palfrey, R., Sivil, D., & Wright, K. (2002). Phosphates and alternative detergent builders: final report. Wiltshire: EU Environment Directorate.
Hartig, J. H., & Horvath, F. J. (1982). A preliminary assessment of Michigan’s phosphorus detergent ban. Journal Water Pollution Control Federation, 54(2), 193–197.
Hauthal, H. G. (2005). Types and typical ingredients of detergents. In H. Waldhoff & R. Spilker (Eds.), Handbook of detergents - Part C: analysis (pp. 1–100). New York: Marcel Dekker.
IJC - International Joint Commission. (1969). Pollution of Lake Erie, Lake Ontario and the international section of St. Lawrence river. International Lake Erie Water Pollution Board and the International Lake Ontario - St Lawrence River Water Pollution Board. Ontario: IJC. <http://www.ijc.org/files/publications/C114.pdf>. Accessed 26 Jun. 2014
IJC - International Joint Commission. (1980). Phosphorus management for the Great Lakes. Final Report of the Phosphorus Management Strategies Task Force. Ontario: IJC, 1980. <http://www.ijc.org/files/publications/D16.pdf>. Accessed 26 Jun. 2014
IJC - International Joint Commission. (2014). A balanced diet for Lake Erie: reducing phosphorus loadings and harmful algal blooms. Report of the Lake Erie Ecosystem Priority. Washington: IJC. <http://www.ijc.org/files/publications/2014%20IJC%20LEEP%20REPORT.pdf>. Accessed 26 Jun. 2014
Jönsson, H., Baky, A., Jeppsson, U., Hellström, D., Kärrman, E. (2005). Composition of urine, faeces, greywater and biowaste: for utilization in the URWARE model. Chalmers University of Technology, Dept. of Industrial Electrical Engineering and Automation. Sweden
Litke, D. W. (1999). Review of phosphorus control measures in the United States and their effects on water quality. United States Geological Survey. Water–Resources Investigations Report 99–4007. National Water Quality Assessment Program. Colorado: USGS
Mauch, C., Reynard, E., Thorens, A. (2000). Historical profile of water regime in Switzerland (1870–2000). Working Paper. Swiss Graduate School of Public Administration - IDHEAP. Politiques Publiques et Environment. Zürich: IDHEAP
McKinney, R. E. (1976). Detergents: composition, characteristics of components, uses and applications. Seminar on “Considerations for a Detergent Policy”. São Paulo: CETESB.
Metcalf & Eddy, Inc., Tchobanoglous, G., Stensel, H. D., Tsuchihashi, R., Burton, F. L. (2014). Wastewater engineering: treatment and resource recovery. 5th ed. New York: McGraw-Hill.
Mumma, C. E., Hopkins, F. C., Bohannon, K., Lapp, T. W. (1979). Analysis of the sources of phosphorus in the environment. United Sates Environmental Protection Agency. Office of Toxic Substances. Report 560/2-79-002. Washington, DF: USEPA. <http://nepis.epa.gov>. Accessed 17 Jan. 2011
Nixon, S.C., Lack, T.J., Hunt, D.T.E. (2000). Recursos hídricos na Europa: uma utilização sustentável? Relatório de Avaliação Ambiental n. 7. Copenhagen: Agência Européia do Ambiente. <http://eea.eu.int>. Accessed 08 May 2014
Nowosielski, A. (2009). Impact assessment of ban on phosphorus in domestic laundry cleaning products. Department for Environment, Food & Rural Affairs. United Kingdom: DEFRA. <http://www.pesticides.gov.uk/Resources/CRD/Migrated-Resources/Documents/D/Defra_Impact_Assessment_ai-phosphate-detergent.pdf>. Accessed 08 May 2014
Paganini, W. S. (2007). A identidade de um rio de contrastes: o Tietê e seus múltiplos usos. São Paulo: Imprensa Oficial do Estado de São Paulo.
Pinto, M. T., Cavalcante, C. G., Luduvice, M. (1999). A evolução do processo de eutrofização do Lago Paranoá, Brasília, após cinco anos de controle nas descargas de nutrientes. 20º Congresso Brasileiro de Engenharia Sanitária e Ambiental. Rio de Janeiro: ABES.
Quevedo, C. M. G., & Paganini, W. S. (2011). Impactos das atividades humanas sobre a gestão do fósforo no meio ambiente e seus reflexos na saúde pública. Ciên Saúde Coletiva. doi:10.1590/S1413-81232011000900021.
Rittner, H. (1995). Sabão: tecnologia e utilização. São Paulo: Câmara Brasileira Livro.
Schindler, D. W. (2006). Recent advances in the understanding and management of eutrophication. Limnology and Oceanography, 51(1), 356–363.
Shannon, E. E. (1975). Effects of detergent formulation on wastewater characteristics and treatment. Journal Water Pollution Control Federation, 47(10), 2371–2383.
Sharpley, A. N., Daniel, T., Sims, T., Lemunyon, J., Stevens, R., Parry, R. (2003). Agricultural phosphorus and eutrophication. United States Department of Agriculture. Agricultural Research Service. Washington: USDA-ARS. <http://www.ars.usda.gov/is/np/Phos&Eutro2/agphoseutro2ed.pdf>. Accessed 24 Jul. 2014
Showell, M. S. (2006). Introduction to detergents. In M. S. Showell (Ed). Handbook of detergents-Part D: formulations. Surfactant Science Series. Boca Raton: Taylor & Francis Group, 2006
Staffel-Schierhoff, U. (2011). Pollutant: group oriented action concepts illustrated by the example of nutrient reduction. In K. U. Rudolpf, Ö. T. Block. The German Water Sector: Policies and Experiences. Federal Ministry for the Environment, Nature Conservation and Nuclear Safety. Federal Environmental Agency. Berlin-Bonn-Witten. <http://www.umweltdaten.de/publikationen/fpdf-l/2752.pdf>. Accessed 24 Jan. 2012
USEPA-United States Environmental Protection Agency. (1979). Office of Toxic Substances. Analysis of the Sources of Phosphorus in the Environment. EPA 560/2-79-002. Washington: EPA
USEPA-United States Environmental Protection Agency. (2005). Field sampling manual. New Jersey: EPA.
USEPA-United States Environmental Protection Agency. (2010). Division of Surface Water. Ohio Lake Erie Phosphorus Task Force Final Report. Ohio: EPA
Van Haandel, A., Girard, L., Mendonça, N., Teixeira, M., & Von Sperling, M. (2009). Remoção biológica de fósforo no sistema de lodo ativado: mecanismos e configurações. In F. S. B. Mota & M. Von Sperling (Eds.), Nutrientes de esgoto sanitário: utilização e remoção (pp. 227–261). Rio de Janeiro: ABES.
Von Sperling, M., Andrade Neto, C. O., Voslchan Junior, I., Florêncio, L. (2009). Impacto dos nutrientes do esgoto lançado em corpos d'água. In F. S. B. Mota & M. Von Sperling (Eds), Nutrientes de esgoto sanitário: utilização e remoção (pp. 26–51). Rio de Janeiro: ABES.
White, P. J., Hammond, J. P. (2006). Updating the estimate of the sources of phosphorus in UK waters: a DEFRA funded project WT0701CSF. Final Report. Department for Environment, Food and Rural Affairs. United Kingdom: DEFRA, Warwick HRI, Scottisch Crop Research Institute. <http://randd.defra.gov.uk>. Accessed 14 Sep. 2013
Wiechers, H. N. S., & Heynike, J. J. C. (1986). Sources of phosphorus which give rise to eutrophication in South African waters. Water SA, 12(2), 99–102.
Wind, T. (2007). The role of detergents in the phosphate-balance of European surface waters. European Water Association. Hennef: E-Water. <http://www.dwa.de/portale/ewa/ewa.nsf/home?readform&objectid=0AB6528C5177A8B7C12572B1004EF1C7>. Accessed 12 Jan. 2014
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Gomes de Quevedo, C.M., da Silva Paganini, W. Detergents as a Source of Phosphorus in Sewage: the Current Situation in Brazil. Water Air Soil Pollut 227, 14 (2016). https://doi.org/10.1007/s11270-015-2700-3
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DOI: https://doi.org/10.1007/s11270-015-2700-3