Citas bibligráficas
Carhuapoma, J., Chahuayo, A. (2019). Diseño del sistema de abastecimiento de agua potable en la Rinconada de Pamplona Alta, aplicando EPANET y algoritmos genéticos para la localización de válvulas reductoras de presión [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/626349
Carhuapoma, J., Chahuayo, A. Diseño del sistema de abastecimiento de agua potable en la Rinconada de Pamplona Alta, aplicando EPANET y algoritmos genéticos para la localización de válvulas reductoras de presión [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2019. http://hdl.handle.net/10757/626349
@misc{renati/1286373,
title = "Diseño del sistema de abastecimiento de agua potable en la Rinconada de Pamplona Alta, aplicando EPANET y algoritmos genéticos para la localización de válvulas reductoras de presión",
author = "Chahuayo Durán, Adolfo Rogers",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2019"
}
At present, the coverage of drinking water in the country is still insufficient, especially in rural areas of the country; similarly, this problem occurs in the peri-urban areas of Lima. Such as the La Rinconada area of Pamplona Alta which is located in the San Juan de Miraflores district that does not have a basic potable water service, the supply of this resource is done by tank trucks and stored in tanks, drums, buckets, etc. It is for this reason that the present investigation proposes a design proposal for the potable water supply system for the study area, for which it is taken into consideration that the required flow will be provided by SEDAPAL. Because the topography of the study area presents steep slopes, it is necessary to use pressure reducing valves, which are localized through the application of the Multiobjective Genetic Algorithm, which in its coding includes the use of the Epanet Programmer's Toolkit, which comes to be a dynamic library (DLL) of functions that allows programmers to customize the EPANET calculation engine for their specific needs. In this sense, the method used proposes a proposal for improvement in the design process of the potable water supply system in La Rinconada de Pamplona Alta in the district of San Juan de Miraflores. For which, the EPANET program was used in the simulation and hydraulic calculation of the distribution network as it is a program of proven effectiveness and free use. On the other hand, the result of the hydraulic analysis of drinking water projects carried out in the country either by iterative manual methods or with the help of simulation programs, often does not meet the requirements of the range of admissible pressures established by the Regulation. National Building, which translates on the one hand in costs of carrying out maintenance programs that supply these deficiencies and on the other hand possible pipe breaks or water leaks due to high pressures. That is why it seeks to meet the requirements of the design standards and at the same time provide adequate service pressure, for which the Multiobjective Genetic Algorithm is used in the design of the network for the study area, which it would lead to savings in operation and maintenance costs. Finally, the proposed design for the drinking water supply system in La Rinconada de Pamplona Alta is made up of the RAP-1 reservoir that supplies four pressure zones through an adduction line and the RRP-3 reservoir that supplies another line of water. adduction to three pressure zones because the topography presents considerable differences in level. Additionally, with the use of a subprogram included in the Multiobjective Genetic Algorithm, it was possible to assign the demand flows automatically in all nodes of the distribution network contributing to the improvement in the design process through the EPANET program.
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