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Reynaga, J., Cornelio, J. (2021). Simulación hidrológica del sistema de abastecimiento de agua de la ciudad de Lima [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/658817
Reynaga, J., Cornelio, J. Simulación hidrológica del sistema de abastecimiento de agua de la ciudad de Lima [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/658817
@misc{renati/398344,
title = "Simulación hidrológica del sistema de abastecimiento de agua de la ciudad de Lima",
author = "Cornelio Tovar, Jorge francisco",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
Title: Simulación hidrológica del sistema de abastecimiento de agua de la ciudad de Lima
Other Titles: Simulation of water supply in the city of Lima for the period 2020-2050 using the WEAP platform
Authors(s): Reynaga Tejada, Jose Luis; Cornelio Tovar, Jorge francisco
Advisor(s): Collas Chavez, Manuel Elias
Keywords: Abastecimiento de agua; Simulación hidrológica; Deficit hídrico; Water supply; Hydrological simulation; Water deficit
OCDE field: http://purl.org/pe-repo/ocde/ford#2.00.00; https://purl.org/pe-repo/ocde/ford#2.01.01
Issue Date: 13-Dec-2021
Institution: Universidad Peruana de Ciencias Aplicadas (UPC)
Abstract: El objetivo de este estudio ha sido desarrollar un modelo hidrológico en la plataforma WEAP, para conocer la cobertura hídrica del abastecimiento de agua de la ciudad de Lima en un escenario actual (2020), a corto plazo 2025, mediano plazo (2035) y largo plazo (2050). El modelo WEAP (Sistema de Evaluación y Planificación del Agua), ha sido calibrado y validado con los registros históricos de los ríos Rímac, Chillón y Lurín, los cuales cuentan con información del periodo 1965-2019. Actualmente, el abastecimiento de agua potable a la ciudad de Lima proviene principalmente del río Rímac, con un caudal promedio de 18,63 m3/s y en época de estiaje se complementa con la explotación de aguas subterráneas de los acuíferos Rímac, Lurín y Chillón. con un volumen de 287 MMC/año. Es importante indicar que los recursos hídricos del río Rímac se complementan con los aportes de los proyectos Macapomacocha I, III y IV que aportan un volumen de 243.5 MMC/año y los aportes del túnel Gratón son 158 MMC/año. De las simulaciones realizadas se concluye que actualmente existe un déficit hídrico de 182 MMC/año y una cobertura del 81,8%.
The objective of this study has been to develop a hydrological model in the WEAP platform, to know the water coverage of the water supply of the city of Lima in a current scenario (2020), in the short term 2025, medium term (2035) and long term term (2050). The WEAP (Water Assessment and Planning System) model has been calibrated and validated with the historical records of the Rímac, Chillón and Lurín rivers, which have information from the 1965-2019 period. Currently, the supply of drinking water to the city of Lima comes mainly from the Rímac River, with an average flow of 18.63 m3 / s and in the dry season it is complemented by the exploitation of groundwater from the Rímac, Lurín and Chillón Aquifers. with a volume of 287 MMC / year. It is important to indicate that the water resources of the Rímac River are complemented by the contributions of the Macapomacocha I, III and IV projects that contribute a volume of 243.5 MMC / year and the contributions of the Graton tunnel are 158 MMC / year. From the simulations carried out, it is concluded that there is currently a water deficit of 182 MMC / year and a coverage of 81.8%.
The objective of this study has been to develop a hydrological model in the WEAP platform, to know the water coverage of the water supply of the city of Lima in a current scenario (2020), in the short term 2025, medium term (2035) and long term term (2050). The WEAP (Water Assessment and Planning System) model has been calibrated and validated with the historical records of the Rímac, Chillón and Lurín rivers, which have information from the 1965-2019 period. Currently, the supply of drinking water to the city of Lima comes mainly from the Rímac River, with an average flow of 18.63 m3 / s and in the dry season it is complemented by the exploitation of groundwater from the Rímac, Lurín and Chillón Aquifers. with a volume of 287 MMC / year. It is important to indicate that the water resources of the Rímac River are complemented by the contributions of the Macapomacocha I, III and IV projects that contribute a volume of 243.5 MMC / year and the contributions of the Graton tunnel are 158 MMC / year. From the simulations carried out, it is concluded that there is currently a water deficit of 182 MMC / year and a coverage of 81.8%.
Link to repository: http://hdl.handle.net/10757/658817
Discipline: Ingeniería Civil
Grade or title grantor: Universidad Peruana de Ciencias Aplicadas (UPC). Facultad de ingeniería
Grade or title: Ingeniero Civil
Register date: 3-Feb-2022
This item is licensed under a Creative Commons License