Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos

In this research, it is proposed to design and evaluate a system for the recovery of wastewater product of vehicle washing based on coagulation-flocculation technologies, activated carbon filters and ozonators on a bench or laboratory scale, with an initial phase in situ which passes by a grease tra...

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Autores:: Plata Solano, Diego José
Canales, Fausto Alfredo

Tipo de recurso:: Trabajo de grado de pregrado

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: spa

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network_acronym_str	RCUC2
network_name_str	REDICUC - Repositorio CUC
repository_id_str
dc.title.spa.fl_str_mv	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
title	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
spellingShingle	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos Waste water Recovery Reuse Coagulation-flocculation Activated carbon Ozonators Colombian standards Agua residual Recuperación Reúso Coagulación-floculación Carbón activado Ozonificadores Normas colombianas
title_short	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
title_full	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
title_fullStr	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
title_full_unstemmed	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
title_sort	Diseño y análisis de un sistema de recuperación de aguas residuales de lavado de autos
dc.creator.fl_str_mv	Plata Solano, Diego José Canales, Fausto Alfredo
dc.contributor.advisor.spa.fl_str_mv	Canales, Fausto Cantero Rodelo, Ruben Dario
dc.contributor.author.spa.fl_str_mv	Plata Solano, Diego José
dc.contributor.author.none.fl_str_mv	Canales, Fausto Alfredo
dc.subject.spa.fl_str_mv	Waste water Recovery Reuse Coagulation-flocculation Activated carbon Ozonators Colombian standards Agua residual Recuperación Reúso Coagulación-floculación Carbón activado Ozonificadores Normas colombianas
topic	Waste water Recovery Reuse Coagulation-flocculation Activated carbon Ozonators Colombian standards Agua residual Recuperación Reúso Coagulación-floculación Carbón activado Ozonificadores Normas colombianas
description	In this research, it is proposed to design and evaluate a system for the recovery of wastewater product of vehicle washing based on coagulation-flocculation technologies, activated carbon filters and ozonators on a bench or laboratory scale, with an initial phase in situ which passes by a grease trap as an initial phase. The goal of this work is to analyze the water resulting from the treatment through trials and tests to obtain certain parameters or characteristics, both chemical and physical, of the water and to be able to contrast them, not only with the results of other similar investigations, but also with Colombian standards that govern the discharge and reuse of wastewater, and even drinking water, in order to verify the potential use of the water resulting from the treatment.
publishDate	2020
dc.date.accessioned.none.fl_str_mv	2020-10-29T18:09:09Z
dc.date.available.none.fl_str_mv	2020-10-29T18:09:09Z
dc.date.issued.none.fl_str_mv	2020
dc.type.spa.fl_str_mv	Trabajo de grado - Pregrado
dc.type.coar.spa.fl_str_mv	http://purl.org/coar/resource_type/c_7a1f
dc.type.content.spa.fl_str_mv	Text
dc.type.driver.spa.fl_str_mv	info:eu-repo/semantics/bachelorThesis
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dc.identifier.uri.spa.fl_str_mv	https://hdl.handle.net/11323/7185
dc.identifier.instname.spa.fl_str_mv	Corporación Universidad de la Costa
dc.identifier.reponame.spa.fl_str_mv	REDICUC - Repositorio CUC
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identifier_str_mv	Corporación Universidad de la Costa REDICUC - Repositorio CUC
dc.language.iso.none.fl_str_mv	spa
language	spa
dc.relation.references.spa.fl_str_mv	Al-Odwani, A., Ahmed, M., & Bou-Hamad, S. (2007). Carwash water reclamation in Kuwait. Desalination, 206(1–3), 17–28. https://doi.org/10.1016/j.desal.2006.03.560 Álvarez Pinzón, G. L. (2017a). El reúso de agua residuales en Colombia. In M. del P. García Pachón (Ed.), Derecho de aguas (pp. 187–232). Universidad Externado de Colombia. Álvarez Pinzón, G. L. (2017b). Interpretación legal de la norma de reuso R. 1207/14 MADS. Seminario Internacional de Reúso y Desalinización de Agua. American Health Public Association, American water works Association, & Water Environment Federation. (2017). Standart Methods for the Examination of water and wastewater (R. Baird & L. Bridgewater (eds.)). https://doi.org/10.2105/SMWW.2882.193 Bhatti, Z. A., Mahmood, Q., Raja, I. A., Malik, A. H., Khan, M. S., & Wu, D. (2011). Chemical oxidation of carwash industry wastewater as an effort to decrease water pollution. Physics and Chemistry of the Earth, 36(9–11), 465–469. https://doi.org/10.1016/j.pce.2010.03.022 Campbell, N. A., & Reece, J. B. (2005). Biología, Septima Edición. Editorial Médica Panamericana. Cantillo Lastre, L. (2016, January 25). Lavadero de carros, sin controles para el consumo de agua. El Heraldo. https://www.elheraldo.co/local/lavadero-de-carros-sin-controles-para-elconsumo-de-agua-240001 Carrasquero, S., Terán, K., Mas, M., Mas, R., Colina, G., & Díaz, A. (2015). Evaluación de un tratamiento fisicoquímico en efluentes provenientes del lavado de vehículos para su reutilización. Revista Arbitrada Venezolana Del Núcleo LUZ-Costa Oriental Del Lago, 10(2), 122–139. Diaz-Elsayed, N., Rezaei, N., Guo, T., Mohebbi, S., & Zhang, Q. (2019). Wastewater-based resource recovery technologies across scale: A review. In Resources, Conservation and Recycling (Vol. 145, Issue December 2018, pp. 94–112). Elsevier. https://doi.org/10.1016/j.resconrec.2018.12.035 Fondriest Environmental Inc. (2013). Dissolved Oxygen. Fundamentals of Environmental Measurement. https://www.fondriest.com/environmental-measurements/parameters/waterquality/dissolved-oxygen/ Ganiyu, S. O., Vieira dos Santos, E., Tossi de Araújo Costa, E. C., & Martínez-Huitle, C. A. (2018). Electrochemical advanced oxidation processes (EAOPs) as alternative treatment techniques for carwash wastewater reclamation. Chemosphere, 211, 998–1006. https://doi.org/10.1016/j.chemosphere.2018.08.044 Hamada, T., & Miyazaki, Y. (2004). Reuse of carwash water with a cellulose acetate ultrafiltration membrane aided by flocculation and activated carbon treatments. Desalination. https://doi.org/10.1016/j.jmb.2006.01.089 Huang, C., Zeng, P., Yang, S., Shao, Y., & Liu, Y. (2015). Water reclamation and reuse. Water Environment Research, 64(4), 18. https://doi.org/10.1002/j.1554-7531.1992.tb00018.x Icontec. (2001). Agua. Procedimiento Para El Método De Jarras En La Coagulación-Floculación Del Agua. Norma Tecnica Colombiana, 1, 9. Jodpimai, S., Boonduang, S., & Limsuwan, P. (2015). Dielectric barrier discharge ozone generator using aluminum granules electrodes. Journal of Electrostatics, 74, 108–114. https://doi.org/10.1016/j.elstat.2014.12.003 Karamah, E. F., Adripratiwi, I. P., & Anindita, L. (2018). Combination of ozonation and adsorption using granular activated carbon (Gac) for tofu industry wastewater treatment. Indonesian Journal of Chemistry, 18(4), 600–606. https://doi.org/10.22146/ijc.26724 Minanbiente. (2015). Resolución 631 De 2015. Diario Oficial No. 49.486 de 18 de Abril de 2015, RESOLUCIÓN(Por la cual se establecen los parámetros y los valores límites máximos permisibles en los vertimientos puntuales a cuerpos de aguas superficiales y a los sistemas de alcantarillado público y se dictan otras disposiciones. EL), 73. Moazzem, S., Ravishankar, H., Fan, L., Roddick, F., & Jegatheesan, V. (2020). Application of enhanced membrane bioreactor (eMBR) for the reuse of carwash wastewater. Journal of Environmental Management, 254(October 2019), 109780. https://doi.org/10.1016/j.jenvman.2019.109780 Mohammadi, M. J., Takdastan, A., Jorfi, S., Neisi, A., Farhadi, M., Yari, A. R., Dobaradaran, S., & Khaniabadi, Y. O. (2017). Electrocoagulation process to Chemical and Biological Oxygen Demand treatment from carwash grey water in Ahvaz megacity, Iran. Data in Brief, 11, 634–639. https://doi.org/10.1016/j.dib.2017.03.006 Nadzirah, Z., Nor Haslina, H., & Rafidah, H. (2015). Removal of Important Parameter from Car Wash Wastewater - A Review. Applied Mechanics and Materials, 773–774, 1153–1157. https://doi.org/10.4028/www.scientific.net/amm.773-774.1153 Panizza, M., & Cerisola, G. (2009a). Applicability of electrochemical methods to carwash wastewaters for reuse. Part 1: Anodic oxidation with diamond and lead dioxide anodes. Journal of Electroanalytical Chemistry, 638(1), 28–32. https://doi.org/10.1016/j.jelechem.2009.10.025 Panizza, M., & Cerisola, G. (2009b). Applicability of electrochemical methods to carwash wastewaters for reuse. Part 2: Electrocoagulation and anodic oxidation integrated process. Journal of Electroanalytical Chemistry, 638q(2), 236–240. https://doi.org/10.1016/j.jelechem.2009.11.003 Patiño, E. (2017, October 17). Suspendidos 63 lavaderos de carros por infringir el Código de Policía. El Heraldo. https://www.elheraldo.co/barranquilla/suspendidos-63-lavaderos-decarros-por-infringir-el-codigo-de-policia-412887 Pinto, A. C. S., de Barros Grossi, L., de Melo, R. A. C., de Assis, T. M., Ribeiro, V. M., Amaral, M. C. S., & de Souza Figueiredo, K. C. (2017). Carwash wastewater treatment by micro and ultrafiltration membranes: Effects of geometry, pore size, pressure difference and feed flow rate in transport properties. Journal of Water Process Engineering, 17(April), 143–148. https://doi.org/10.1016/j.jwpe.2017.03.012 Smith, H. M., Brouwer, S., Jeffrey, P., & Frijns, J. (2018). Public responses to water reuse – Understanding the evidence. In Journal of Environmental Management (Vol. 207, pp. 43– 50). Elsevier Ltd. https://doi.org/10.1016/j.jenvman.2017.11.021 Taylor, P., Etchepare, R., Zaneti, R., Azevedo, A., Rubio, J., Etchepare, R., & Zaneti, R. (2014). Application of flocculation – flotation followed by ozonation in vehicle wash wastewater treatment / disinfection and water reclamation wastewater treatment / disinfection and water reclamation. April 2015, 37–41. https://doi.org/10.1080/19443994.2014.951971 Tchobanoglous, G., Burton L., F., & Stensel, H. D. (2002). Wastewater Engineering Treatment and Reuse. Вестник Казнму, №4, с.30. United State Enviromental Protection Agency. (2012). Total Alkalinity. EPA. https://archive.epa.gov/water/archive/web/html/vms510.html VELP Scientifica. (2013). BOD Analysis - BOD EVO. VELP Scientifica, 8120. https://www.velp.com/public/file/biochemical-oxygen-demand-with-bod-evo-sensor201086-210342.pdf World Health Organization. (2016). Total dissolved solids in Drinking-water. World Health Organization, 8. https://doi.org/10.1080/10417943609370625 Yuvi Mendoza, C. E. (2008). Escuela politécnica nacional. Estudio de Factibilidad Para La Creación de Una Operadora de Ecoturismo En La Ciudad de Otavalo, 244. Zaneti, R., Etchepare, R., & Rubio, J. (2011). Car wash wastewater reclamation. Full-scale application and upcoming features. Resources, Conservation and Recycling, 55(11), 953– 959. https://doi.org/10.1016/j.resconrec.2011.05.002 Zaneti, R., Etchepare, R., & Rubio, J. (2012). More environmentally friendly vehicle washes: Water reclamation. Journal of Cleaner Production, 37, 115–124. https://doi.org/10.1016/j.jclepro.2012.06.017
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spelling	Canales, FaustoCantero Rodelo, Ruben DarioPlata Solano, Diego JoséCanales, Fausto Alfredovirtual::590-12020-10-29T18:09:09Z2020-10-29T18:09:09Z2020https://hdl.handle.net/11323/7185Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/In this research, it is proposed to design and evaluate a system for the recovery of wastewater product of vehicle washing based on coagulation-flocculation technologies, activated carbon filters and ozonators on a bench or laboratory scale, with an initial phase in situ which passes by a grease trap as an initial phase. The goal of this work is to analyze the water resulting from the treatment through trials and tests to obtain certain parameters or characteristics, both chemical and physical, of the water and to be able to contrast them, not only with the results of other similar investigations, but also with Colombian standards that govern the discharge and reuse of wastewater, and even drinking water, in order to verify the potential use of the water resulting from the treatment.En la presente investigación se propone diseñar y evaluar un sistema de recuperación de aguas residuales producto del lavado de vehículos basado en tecnologías coagulación-floculación, filtros de carbón activado y ozonificadores a escala de banco o laboratorio, con una fase inicial in situ la cual pasa por una trampa de grasa como fase inicial. La meta de este trabajo es analizar el agua resultante del tratamiento por medio de ensayos y pruebas para la obtención de ciertos parámetros o características, tanto químicas como físicas, del agua y lograr contraponerlos, no solo con resultados de otras investigaciones similares, sino también con las normas colombianas de que rigen el vertimiento y reúso de aguas residuales, e incluso, agua potable, con tal de comprobar el potencial de uso del agua resultante del tratamiento.spaCorporación Universidad de la CostaIngeniería CivilAttribution-NonCommercial-ShareAlike 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-sa/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Waste waterRecoveryReuseCoagulation-flocculationActivated carbonOzonatorsColombian standardsAgua residualRecuperaciónReúsoCoagulación-floculaciónCarbón activadoOzonificadoresNormas colombianasDiseño y análisis de un sistema de recuperación de aguas residuales de lavado de autosTrabajo de grado - Pregradohttp://purl.org/coar/resource_type/c_7a1fTextinfo:eu-repo/semantics/bachelorThesishttp://purl.org/redcol/resource_type/TPinfo:eu-repo/semantics/acceptedVersionAl-Odwani, A., Ahmed, M., & Bou-Hamad, S. (2007). Carwash water reclamation in Kuwait. Desalination, 206(1–3), 17–28. https://doi.org/10.1016/j.desal.2006.03.560Álvarez Pinzón, G. L. (2017a). El reúso de agua residuales en Colombia. In M. del P. García Pachón (Ed.), Derecho de aguas (pp. 187–232). Universidad Externado de Colombia.Álvarez Pinzón, G. L. (2017b). Interpretación legal de la norma de reuso R. 1207/14 MADS. Seminario Internacional de Reúso y Desalinización de Agua.American Health Public Association, American water works Association, & Water Environment Federation. (2017). Standart Methods for the Examination of water and wastewater (R. Baird & L. Bridgewater (eds.)). https://doi.org/10.2105/SMWW.2882.193Bhatti, Z. A., Mahmood, Q., Raja, I. A., Malik, A. H., Khan, M. S., & Wu, D. (2011). Chemical oxidation of carwash industry wastewater as an effort to decrease water pollution. Physics and Chemistry of the Earth, 36(9–11), 465–469. https://doi.org/10.1016/j.pce.2010.03.022Campbell, N. A., & Reece, J. B. (2005). Biología, Septima Edición. Editorial Médica Panamericana.Cantillo Lastre, L. (2016, January 25). Lavadero de carros, sin controles para el consumo de agua. El Heraldo. https://www.elheraldo.co/local/lavadero-de-carros-sin-controles-para-elconsumo-de-agua-240001Carrasquero, S., Terán, K., Mas, M., Mas, R., Colina, G., & Díaz, A. (2015). Evaluación de un tratamiento fisicoquímico en efluentes provenientes del lavado de vehículos para su reutilización. Revista Arbitrada Venezolana Del Núcleo LUZ-Costa Oriental Del Lago, 10(2), 122–139.Diaz-Elsayed, N., Rezaei, N., Guo, T., Mohebbi, S., & Zhang, Q. (2019). Wastewater-based resource recovery technologies across scale: A review. In Resources, Conservation and Recycling (Vol. 145, Issue December 2018, pp. 94–112). Elsevier. https://doi.org/10.1016/j.resconrec.2018.12.035Fondriest Environmental Inc. (2013). Dissolved Oxygen. Fundamentals of Environmental Measurement. https://www.fondriest.com/environmental-measurements/parameters/waterquality/dissolved-oxygen/Ganiyu, S. O., Vieira dos Santos, E., Tossi de Araújo Costa, E. C., & Martínez-Huitle, C. A. (2018). Electrochemical advanced oxidation processes (EAOPs) as alternative treatment techniques for carwash wastewater reclamation. Chemosphere, 211, 998–1006. https://doi.org/10.1016/j.chemosphere.2018.08.044Hamada, T., & Miyazaki, Y. (2004). Reuse of carwash water with a cellulose acetate ultrafiltration membrane aided by flocculation and activated carbon treatments. Desalination. https://doi.org/10.1016/j.jmb.2006.01.089Huang, C., Zeng, P., Yang, S., Shao, Y., & Liu, Y. (2015). Water reclamation and reuse. Water Environment Research, 64(4), 18. https://doi.org/10.1002/j.1554-7531.1992.tb00018.xIcontec. (2001). Agua. Procedimiento Para El Método De Jarras En La Coagulación-Floculación Del Agua. Norma Tecnica Colombiana, 1, 9.Jodpimai, S., Boonduang, S., & Limsuwan, P. (2015). Dielectric barrier discharge ozone generator using aluminum granules electrodes. Journal of Electrostatics, 74, 108–114. https://doi.org/10.1016/j.elstat.2014.12.003Karamah, E. F., Adripratiwi, I. P., & Anindita, L. (2018). Combination of ozonation and adsorption using granular activated carbon (Gac) for tofu industry wastewater treatment. Indonesian Journal of Chemistry, 18(4), 600–606. https://doi.org/10.22146/ijc.26724Minanbiente. (2015). Resolución 631 De 2015. Diario Oficial No. 49.486 de 18 de Abril de 2015, RESOLUCIÓN(Por la cual se establecen los parámetros y los valores límites máximos permisibles en los vertimientos puntuales a cuerpos de aguas superficiales y a los sistemas de alcantarillado público y se dictan otras disposiciones. EL), 73.Moazzem, S., Ravishankar, H., Fan, L., Roddick, F., & Jegatheesan, V. (2020). Application of enhanced membrane bioreactor (eMBR) for the reuse of carwash wastewater. Journal of Environmental Management, 254(October 2019), 109780. https://doi.org/10.1016/j.jenvman.2019.109780Mohammadi, M. J., Takdastan, A., Jorfi, S., Neisi, A., Farhadi, M., Yari, A. R., Dobaradaran, S., & Khaniabadi, Y. O. (2017). Electrocoagulation process to Chemical and Biological Oxygen Demand treatment from carwash grey water in Ahvaz megacity, Iran. Data in Brief, 11, 634–639. https://doi.org/10.1016/j.dib.2017.03.006Nadzirah, Z., Nor Haslina, H., & Rafidah, H. (2015). Removal of Important Parameter from Car Wash Wastewater - A Review. Applied Mechanics and Materials, 773–774, 1153–1157. https://doi.org/10.4028/www.scientific.net/amm.773-774.1153Panizza, M., & Cerisola, G. (2009a). Applicability of electrochemical methods to carwash wastewaters for reuse. Part 1: Anodic oxidation with diamond and lead dioxide anodes. Journal of Electroanalytical Chemistry, 638(1), 28–32. https://doi.org/10.1016/j.jelechem.2009.10.025Panizza, M., & Cerisola, G. (2009b). Applicability of electrochemical methods to carwash wastewaters for reuse. Part 2: Electrocoagulation and anodic oxidation integrated process. Journal of Electroanalytical Chemistry, 638q(2), 236–240. https://doi.org/10.1016/j.jelechem.2009.11.003Patiño, E. (2017, October 17). Suspendidos 63 lavaderos de carros por infringir el Código de Policía. El Heraldo. https://www.elheraldo.co/barranquilla/suspendidos-63-lavaderos-decarros-por-infringir-el-codigo-de-policia-412887Pinto, A. C. S., de Barros Grossi, L., de Melo, R. A. C., de Assis, T. M., Ribeiro, V. M., Amaral, M. C. S., & de Souza Figueiredo, K. C. (2017). Carwash wastewater treatment by micro and ultrafiltration membranes: Effects of geometry, pore size, pressure difference and feed flow rate in transport properties. Journal of Water Process Engineering, 17(April), 143–148. https://doi.org/10.1016/j.jwpe.2017.03.012Smith, H. M., Brouwer, S., Jeffrey, P., & Frijns, J. (2018). Public responses to water reuse – Understanding the evidence. In Journal of Environmental Management (Vol. 207, pp. 43– 50). Elsevier Ltd. https://doi.org/10.1016/j.jenvman.2017.11.021Taylor, P., Etchepare, R., Zaneti, R., Azevedo, A., Rubio, J., Etchepare, R., & Zaneti, R. (2014). Application of flocculation – flotation followed by ozonation in vehicle wash wastewater treatment / disinfection and water reclamation wastewater treatment / disinfection and water reclamation. April 2015, 37–41. https://doi.org/10.1080/19443994.2014.951971Tchobanoglous, G., Burton L., F., & Stensel, H. D. (2002). Wastewater Engineering Treatment and Reuse. Вестник Казнму, №4, с.30.United State Enviromental Protection Agency. (2012). Total Alkalinity. EPA. https://archive.epa.gov/water/archive/web/html/vms510.htmlVELP Scientifica. (2013). BOD Analysis - BOD EVO. VELP Scientifica, 8120. https://www.velp.com/public/file/biochemical-oxygen-demand-with-bod-evo-sensor201086-210342.pdfWorld Health Organization. (2016). Total dissolved solids in Drinking-water. World Health Organization, 8. https://doi.org/10.1080/10417943609370625Yuvi Mendoza, C. E. (2008). Escuela politécnica nacional. Estudio de Factibilidad Para La Creación de Una Operadora de Ecoturismo En La Ciudad de Otavalo, 244.Zaneti, R., Etchepare, R., & Rubio, J. (2011). Car wash wastewater reclamation. Full-scale application and upcoming features. Resources, Conservation and Recycling, 55(11), 953– 959. https://doi.org/10.1016/j.resconrec.2011.05.002Zaneti, R., Etchepare, R., & Rubio, J. (2012). More environmentally friendly vehicle washes: Water reclamation. 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