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Galarza Molina, S., & Torres, A. (2017). Método de dimensionamiento para tanques de captación de agua lluvia utilizando series de resolución diaria de lluvia y de demanda de agua. Luna Azul, (45), 107–122. https://doi.org/10.17151/luaz.2017.45.7
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Este trabajo presenta un método simplificado para el dimensionamiento de tanques de aprovechamiento de aguas lluvias (AAL). Este método considera cuencas tributarias heterogéneas y caudales de demanda de agua. Se propone tener en cuenta la probabilidad para suministrar la demanda de agua, así como el paso de tiempo necesario de recolección más probable y sus respectivas variabilidades. El método se aplicó a un estudio específico de caso (Pontificia Universidad Javeriana, proyecto AAL), con 73 años de información de precipitación a resolución diaria (entre 1936-2010). Para el análisis se utilizaron diferentes períodos de tiempo, los volúmenes del tanque con el tiempo de recolección fueron los siguientes: (i) para el conjunto entero de datos 76 años: 395 m3 (28 días, probabilidad: 78%); (ii) para los últimos diez años: 494 m3 (35 días, probabilidad: 89%); (iii) para los últimos cinco años: 346 m3 (25 días, probabilidad: 84%); (iv) para el último año: 155 a 198 m3 (11 a 14 días, probabilidad: 89-90%). Estos resultados parecen estar influenciados por una evolución de la altura de lluvia en los diferentes períodos seleccionados, lo cual será estudiado en investigaciones posteriores.
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Davis, D. R. (2002). The Development of Celtic Linguistics 1850-1900 . New York: Routlegde Taylor and Francis Group.
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Jenkins, G. A. (2007). Use of continuous simulation for the selection of an appropriate urban rainwater tank. Retrieved from http://researchbank.swinburne.edu.au/vital/access/manager/Repository/swin:12426;jsessionid=C684097A60BF143D70C365955F195029?f0=sm_creator%3A%22Jenkins%2C+G.+A.%22.
Khastagir, A., & Jayasuriya, N. (2010). Optimal sizing of rain water tanks for domestic water conservation . Journal of Hydrology, 381(3-4), 181-188. http://doi.org/10.1016/j.jhydrol.2009.11.040.
Lara Borrero, J. A., Torres, A., Campos Pinilla, M. C., Duarte Castro, L., Echeverri Robayo, J. I., & Villegas González, P. A. (2007). Aprovechamiento del agua lluvia para riego y para el lavado de zonas duras y fachadas en el campus de la Pontificia Universidad Javeriana (Bogotá). Ingenieria y Universidad , 11(2). http://doi.org/10.1144/929.
Lariyah, M. S., Mohd Nor, M. D., Mohamed Roseli, Z. A., Zulkefli, M., & Amirah Hanim, M. . (2011). Application of Water Sensitive Urban Design at Local Scale in Kuala Lumpur . Presented at the 12nd International Conference on Urban Drainage, Porto Alegre, Brazil. Retrieved from http://www.academia.edu/6434175/Application_of_Water_Sensitive_Urban_Design_at_Local_Scale_in_Kuala_Lumpur.
Li, F., Cook, S., Geballe, G. T., & Burch Jr, W. R. (2000). Rainwater Harvesting Agriculture: An Integrated System for Water Management on Rainfed Land in China’s Semiarid Areas. AMBIO: A Journal of the Human Environment , 29(8), 477-483. http://doi.org/10.1579/0044-7447-29.8.477.
Li, X.-Y., & Gong, J.-D. (2002). Compacted microcatchments with local earth materials for rainwater harvesting in the semiarid region of China. Journal of Hydrology , 257(1-4), 134-144. http://doi.org/10.1016/S0022-1694(01)00550-9.
Marinoski, D. L., Ghisi, E., & Gómez, L. A. (2004). Aproveitamento de água pluvial e dimensionamento de reservatório para fins não potáveis: estudo de caso em um conjunto residencial localizado em Florianópolis . Presented at the Conferência Latino-Americana de Construção Sustentável, Encontro Nacional De Tecnologia do Ambiente Construído, Sao Pablo, Brazil, 18-21 julho 2004.
Mitchell, V. G., McCarthy, D. T., Deletic, A., & Fletcher, T. D. (2008). Urban stormwater harvesting - sensitivity of a storage behaviour model. Environmental Modelling & Software, 23(6), 782-793. http://doi.org/10.1016/j.envsoft.2007.09.006.
Mora, O., Alvarado, D., & Torres, A. (2011). Economic Analysis of the application of porous pavements on Bogota roads. Presented at the 12nd International Conference on Urban Drainage, Porto Alegre, Brazil, September 11 to 16, 2011.
Mukheibir, P. (2007). Water Resources Management Strategies for Adaptation to Climate-Induced Impacts in South Africa. Water Resources Management , 22(9), 1259-1276. http://doi.org/10.1007/s11269-007-9224-6.
Muller, M. (2007). Adapting to climate change water management for urban resilience. Environment and Urbanization , 19(1), 99-113. http://doi.org/10.1177/0956247807076726.
Mwenge Kahinda, J., Taigbenu, A. E., & Boroto, R. J. (2010). Domestic rainwater harvesting as an adaptation measure to climate change in South Africa . Physics and Chemistry of the Earth, Parts A/B/C , 35(13-14), 742-751. http://doi.org/10.1016/j.pce.2010.07.004.
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Pandey, D. N., Gupta, A. K., & Anderson, D. M. (2003). Rainwater harvesting as an adaptation to climate change. CURRENT SCIENCE , 85(1), 46-59.
Ramírez, J. (2009, March). Construcción verde en concreto. Noticreto , 93, 20-27.
R Development Core Team. (2012). Vienna, Austria: R: A language and environment for statistical computing. Retrieved from http://www.R-project.org/.
Rozos, E., Makropoulos, C., & Butler, D. (2010). Design Robustness of Local Water-Recycling Schemes. Journal of Water Resources Planning and Management , 136(5), 531-538. http://doi.org/10.1061/(ASCE)WR.1943-5452.0000067.
Sanchez, L. S., & Caicedo, E. (2003). Uso del Agua Lluvia en la Bocana- Buenaventura (pp. 1-9). Presented at the AGUA 2003 Internacional: Usos Múltiples del Agua Para la Vida y el Desarrollo Sostenible, Cartagena, Colombia: Cinara.
Seo, Y., Choi, N.-J., & Park, D. (2012). Effect of connecting rain barrels on the storage size reduction. Hydrological Processes , 26(23), 3538-3551. http://doi.org/10.1002/hyp.8430.
Song, M. Y., Han, M. Y., & Kim, S. R. (n.d.). Considerations on the rainwater harvesting regulations. Journal of Korean Society of Water and Wastewater , 17(6), 729-740.
Torres, A., Estupiñán Perdomo, J.L., & Zapata García, H.O. (2011). Proposal and assessment of rainwater harvesting scenarios on the Javeriana University campus, Bogota. Presented at the 12 nd International Conference on Urban Drainage, Porto Alegre, Brazil. Retrieved from http://www.academia.edu/6434175/Application_of_Water_Sensitive_Urban_Design_at_Local_Scale_in_Kuala_Lumpur.
Torres, A., Lara-Borrero, J., Torres, O., Estupiñan, J., & Méndez-Fajardo, S. (2011). Aprovechamiento de aguas lluvias en el campus de la Pontificia Universidad Javeriana, Sede Bogotá (PUJB). In L. D. Sánchez Torres, A. Galvis Castaño, I. Restrepo Tarquino, & M. R. Peña Varón (Eds.), Gestión integrada del Recurso Hídrico Frente al Cambio Climático (pp. 325-336). Cali, Colombia: Programa Editorial Universidad Del Valle.
Torres, A., Méndez-Fajardo, S., Lara-Borrero, J. A., Estupiñán Perdomo, J. L., Zapata García, H. O., & Torres Murillo, Ó. M. (2012). Hacia equipamientos urbanos sostenibles:aprovechamiento de aguas lluvias en el campus de la Pontificia Universidad Javeriana en Bogotá. Cuadernos de Vivienda y Urbanismo , 5(9). http://doi.org/10.11144/5398.
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Appan, A. (2000). A dual-mode system for harnessing roofwater for non-potable uses. Urban Water , 1(4), 317-321. http://doi.org/10.1016/S1462-0758(00)00025-X.
Ballén, J. A., Galarza, M. Á., & Ortiz, R. O. (2006). Sistemas de aprovechamiento de agua lluvia para vivienda urbana . Presented at the VI SEREA - Seminario iberoamericano sobre sistemas de abastecimiento urbano de agua, João Pessoa, Brazil, 5-7, June, 2006.
Boelee, E., Yohannes, M., Poda, J.-N., McCartney, M., Cecchi, P., Kibret, S., … Laamrani, H. (2012). Options for water storage and rainwater harvesting to improve health and resilience against climate change in Africa. Regional Environmental Change , 13(3), 509-519. http://doi.org/10.1007/s10113-012-0287-4
Campisano, A., & Modica, C. (2012). Optimal sizing of storage tanks for domestic rainwater harvesting in Sicily. Resources, Conservation and Recycling , 63, 9-16. http://doi.org/10.1016/j.resconrec.2012.03.007.
CIRIA. (2000). Sustainable Urban Drainage Systems: Design Manual for Scotland and Northern Ireland. Construction Industry Research and Information Association . London. ISBN 0-86017-521-9.
Coombes, P. J., Argue, J. R., & Kuczera, G. (2000). Figtree Place: a case study in water sensitive urban development (WSUD). Urban Water , 1(4), 335-343. http://doi.org/10.1016/S1462-0758(00)00027-3.
Coombes, P. J., & Mitchell, V. G. (2006). Roofwater, storm water, and wastewater reuse. In T. H. F. Wong (Ed.), Australian runoff quality . Sydney, Australia: The Institution of Engineers Australia.
Davis, D. R. (2002). The Development of Celtic Linguistics 1850-1900 . New York: Routlegde Taylor and Francis Group.
Duan, C., Attwater, R., & Min, L. (2008). Introduction to rainwater management in Australia and suggestions for China’s water problems. Journal of Chongqing University (English Edition), 7(1).
EPA. (2004). Guidelines for Water Reuse . EPA/625/R-04/108, September 2004, US Enviromental Protection Agency, Washington, DC.
Farreny, R., Gabarrell, X., & Rieradevall, J. (2011). Cost-efficiency of rainwater harvesting strategies in dense Mediterranean neighbourhoods. Resources, Conservation and Recycling , 55(7), 686-694. http://doi.org/10.1016/j.resconrec.2011.01.008.
Fewkes, A. (1999). The use of rainwater for WC flushing: the field testing of a collection system. Building and Environment, 34(6), 765-772. http://doi.org/10.1016/S0360-1323(98)00063-8.
Galarza-Molina, S., Torres, A., Moura, P., & Lara-Borrero, J. (2015). CRIDE: A Case Study in Multi-Criteria Analysis for Decision-Making Support in Rainwater Harvesting. International Journal of Information Technology & Decision Making , 14(01), 43-67. http://doi.org/10.1142/S0219622014500862.
Galarza, S., & Garzón, F. (2005). Estudio de viabilidad técnica de los sistemas urbanos de drenaje sostenible para las condiciones tropicales de Colombia. Epiciclos , 4(1), 59-70.
Ghisi, E., Tavares, D. da F., & Rocha, V. L. (2009). Rainwater harvesting in petrol stations in Brasília: Potential for potable water savings and investment feasibility analysis. Resources, Conservation and Recycling , 54(2), 79-85. http://doi.org/10.1016/j.resconrec.2009.06.010.
Handia, L., Tembo, J. M., & Mwiindwa, C. (2003). Potential of rainwater harvesting in urban Zambia. Physics and Chemistry of the Earth, Parts A/B/C , 28(20-27), 893-896. http://doi.org/10.1016/j.pce.2003.08.016.
Hatt, B. E., Deletic, A., & Fletcher, T. D. (2006). Integrated treatment and recycling of stormwater: a review of Australian practice. Journal of Environmental Management , 79(1), 102-113. http://doi.org/10.1016/j.jenvman.2005.06.003.
Herrmann, T., & Schmida, U. (2000). Rainwater utilisation in Germany: efficiency, dimensioning, hydraulic and environmental aspects. Urban Water, 1(4), 307-316. http://doi.org/10.1016/S1462-0758(00)00024-8.
Imteaz, M. A., Rahman, A., & Ahsan, A. (2012). Reliability analysis of rainwater tanks: A comparison between South-East and Central Melbourne. Resources, Conservation and Recycling , 66, 1-7. http://doi.org/10.1016/j.resconrec.2012.05.009.
Imteaz, M. A., Shanableh, A., Rahman, A., & Ahsan, A. (2011). Optimisation of rainwater tank design from large roofs: A case study in Melbourne, Australia. Resources, Conservation and Recycling , 55(11), 1022-1029. http://doi.org/10.1016/j.resconrec.2011.05.013.
Jenkins, G. A. (2007). Use of continuous simulation for the selection of an appropriate urban rainwater tank. Retrieved from http://researchbank.swinburne.edu.au/vital/access/manager/Repository/swin:12426;jsessionid=C684097A60BF143D70C365955F195029?f0=sm_creator%3A%22Jenkins%2C+G.+A.%22.
Khastagir, A., & Jayasuriya, N. (2010). Optimal sizing of rain water tanks for domestic water conservation . Journal of Hydrology, 381(3-4), 181-188. http://doi.org/10.1016/j.jhydrol.2009.11.040.
Lara Borrero, J. A., Torres, A., Campos Pinilla, M. C., Duarte Castro, L., Echeverri Robayo, J. I., & Villegas González, P. A. (2007). Aprovechamiento del agua lluvia para riego y para el lavado de zonas duras y fachadas en el campus de la Pontificia Universidad Javeriana (Bogotá). Ingenieria y Universidad , 11(2). http://doi.org/10.1144/929.
Lariyah, M. S., Mohd Nor, M. D., Mohamed Roseli, Z. A., Zulkefli, M., & Amirah Hanim, M. . (2011). Application of Water Sensitive Urban Design at Local Scale in Kuala Lumpur . Presented at the 12nd International Conference on Urban Drainage, Porto Alegre, Brazil. Retrieved from http://www.academia.edu/6434175/Application_of_Water_Sensitive_Urban_Design_at_Local_Scale_in_Kuala_Lumpur.
Li, F., Cook, S., Geballe, G. T., & Burch Jr, W. R. (2000). Rainwater Harvesting Agriculture: An Integrated System for Water Management on Rainfed Land in China’s Semiarid Areas. AMBIO: A Journal of the Human Environment , 29(8), 477-483. http://doi.org/10.1579/0044-7447-29.8.477.
Li, X.-Y., & Gong, J.-D. (2002). Compacted microcatchments with local earth materials for rainwater harvesting in the semiarid region of China. Journal of Hydrology , 257(1-4), 134-144. http://doi.org/10.1016/S0022-1694(01)00550-9.
Marinoski, D. L., Ghisi, E., & Gómez, L. A. (2004). Aproveitamento de água pluvial e dimensionamento de reservatório para fins não potáveis: estudo de caso em um conjunto residencial localizado em Florianópolis . Presented at the Conferência Latino-Americana de Construção Sustentável, Encontro Nacional De Tecnologia do Ambiente Construído, Sao Pablo, Brazil, 18-21 julho 2004.
Mitchell, V. G., McCarthy, D. T., Deletic, A., & Fletcher, T. D. (2008). Urban stormwater harvesting - sensitivity of a storage behaviour model. Environmental Modelling & Software, 23(6), 782-793. http://doi.org/10.1016/j.envsoft.2007.09.006.
Mora, O., Alvarado, D., & Torres, A. (2011). Economic Analysis of the application of porous pavements on Bogota roads. Presented at the 12nd International Conference on Urban Drainage, Porto Alegre, Brazil, September 11 to 16, 2011.
Mukheibir, P. (2007). Water Resources Management Strategies for Adaptation to Climate-Induced Impacts in South Africa. Water Resources Management , 22(9), 1259-1276. http://doi.org/10.1007/s11269-007-9224-6.
Muller, M. (2007). Adapting to climate change water management for urban resilience. Environment and Urbanization , 19(1), 99-113. http://doi.org/10.1177/0956247807076726.
Mwenge Kahinda, J., Taigbenu, A. E., & Boroto, R. J. (2010). Domestic rainwater harvesting as an adaptation measure to climate change in South Africa . Physics and Chemistry of the Earth, Parts A/B/C , 35(13-14), 742-751. http://doi.org/10.1016/j.pce.2010.07.004.
Navarro, I., & Saldarriaga, J. (2008). Determinación de la viabilidad técnica y económica de un sistema de almacenamiento temporal de aguas de drenaje urbano para la ciudad de Bogotá. Universidad de los Andes, Bogotá. Retrieved from http://especiales.universia.net.co/dmdocuments/Tesis__Ivonne_Navarro.pdf.
Palacio Castañeda, N. (2010). Propuesta de un sistema de aprovechamiento de agua lluvia como alternativa para el ahorro de agua potable, en la institución educativa María Auxiliadora de Caldas, Antioquia. Revista Gestión y Ambiente , 13(2), 25-40.
Pandey, D. N., Gupta, A. K., & Anderson, D. M. (2003). Rainwater harvesting as an adaptation to climate change. CURRENT SCIENCE , 85(1), 46-59.
Ramírez, J. (2009, March). Construcción verde en concreto. Noticreto , 93, 20-27.
R Development Core Team. (2012). Vienna, Austria: R: A language and environment for statistical computing. Retrieved from http://www.R-project.org/.
Rozos, E., Makropoulos, C., & Butler, D. (2010). Design Robustness of Local Water-Recycling Schemes. Journal of Water Resources Planning and Management , 136(5), 531-538. http://doi.org/10.1061/(ASCE)WR.1943-5452.0000067.
Sanchez, L. S., & Caicedo, E. (2003). Uso del Agua Lluvia en la Bocana- Buenaventura (pp. 1-9). Presented at the AGUA 2003 Internacional: Usos Múltiples del Agua Para la Vida y el Desarrollo Sostenible, Cartagena, Colombia: Cinara.
Seo, Y., Choi, N.-J., & Park, D. (2012). Effect of connecting rain barrels on the storage size reduction. Hydrological Processes , 26(23), 3538-3551. http://doi.org/10.1002/hyp.8430.
Song, M. Y., Han, M. Y., & Kim, S. R. (n.d.). Considerations on the rainwater harvesting regulations. Journal of Korean Society of Water and Wastewater , 17(6), 729-740.
Torres, A., Estupiñán Perdomo, J.L., & Zapata García, H.O. (2011). Proposal and assessment of rainwater harvesting scenarios on the Javeriana University campus, Bogota. Presented at the 12 nd International Conference on Urban Drainage, Porto Alegre, Brazil. Retrieved from http://www.academia.edu/6434175/Application_of_Water_Sensitive_Urban_Design_at_Local_Scale_in_Kuala_Lumpur.
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