Citas bibligráficas
Hinojosa, K., Vigil, C. (2018). Modelamiento hidráulico para la interconexión de los sistemas de abastecimiento Piuray – Vilcanota de agua potable de la ciudad del Cusco. [Tesis, Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/2220
Hinojosa, K., Vigil, C. Modelamiento hidráulico para la interconexión de los sistemas de abastecimiento Piuray – Vilcanota de agua potable de la ciudad del Cusco. [Tesis]. : Universidad Andina del Cusco; 2018. https://hdl.handle.net/20.500.12557/2220
@misc{renati/960300,
title = "Modelamiento hidráulico para la interconexión de los sistemas de abastecimiento Piuray – Vilcanota de agua potable de la ciudad del Cusco.",
author = "Vigil Bravo, Carmen Rosa",
publisher = "Universidad Andina del Cusco",
year = "2018"
}
Having in the city of Cusco five systems of supply, systems administered by EPS SEDACUSCO. The Vilcanota and Piuray systems being the most important, since they provide drinking water service to 49.5% and 39.7% of the population served, respectively; compared to the other systems that supply a 10.8% as a whole (Kor Kor, 6.1%, Jaquira, 1.1% and Salkantay, 3.6%), considering that these systems have independent captures, so they were not considered within the research . That is why the main objective is the determination of a new infrastructure that serves to interconnect these systems in case of emergency in any of these, by means of a hydraulic model. Because there are leaks in the lines of conduction by the antiquity of the material of the pipes. The repair time of these ranges between 12 - 23 hours depending on different factors. To determine the additional infrastructure is considered: the interruption of service in the line of conduction for a period of 24 hours (considering this time as the most critical to complete the repair of a pipeline) and taking into account the production of each system as the limit flow that can be transferred. In order to develop the hydraulic model, use was made of the distribution network and PAGIS plans provided by the EPS SedaCusco, as well as the thesis data: “Determination of the coefficient of variation of the daily and hourly demand of drinking water of the Cusco city “ Realized by Nicole A. Wilson G., and later to be able to find the invoiced volume, the number of active connections. With these data, the average flow and maximum hourly flow for each system was determined. The results provided by the hydraulic model served as a basis to determine the necessary infrastructure for the interconnection of systems; This being a cast iron pipe with 500 mm in diameter, with a diameter change in the pipeline that goes from the reservoir from Koripata to Larapa, increasing this to 700 mm. Adding a pump and a flow regulating valve, depending on the emergency scenario that may arise. Having 2 hours of simultaneous work when the emergency occurs in the Vilcanota system and 3 hours otherwise.
Este ítem está sujeto a una licencia Creative Commons Licencia Creative Commons