Bibliographic citations
Zapata, L., (2014). Diseño óptimo de redes cerradas de tuberías presurizadas para abastecimiento de agua potable en flujo permanente y aplicación al Centro Poblado Campanita ubicado en San José Pacasmayo – La Libertad [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/618
Zapata, L., Diseño óptimo de redes cerradas de tuberías presurizadas para abastecimiento de agua potable en flujo permanente y aplicación al Centro Poblado Campanita ubicado en San José Pacasmayo – La Libertad [Tesis]. : Universidad Privada Antenor Orrego - UPAO; 2014. https://hdl.handle.net/20.500.12759/618
@misc{renati/374980,
title = "Diseño óptimo de redes cerradas de tuberías presurizadas para abastecimiento de agua potable en flujo permanente y aplicación al Centro Poblado Campanita ubicado en San José Pacasmayo – La Libertad",
author = "Zapata Negreiros, Luis Armando",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2014"
}
The objective of this thesis is to design optimally closed pressurized pipe networks for drinking water, for which a methodology based on ingenious, logical and relatively simple algorithms is proposed. The application in order to explain Said methodology in a didactic way is to populated bell located in the district of San José, Pacasmayo province, La Libertad department center. A review of the hydraulic foundation applied to closed pressurized pipe networks being the principles of conservation of mass and energy which govern the hydraulic calculation was performed. With the help of Ms Excel, various methods of hydraulic calculations verifying their convergence and stability compared. Was selected the method of Linear Theory as hydraulic calculation engine for optimization methodology is proposed to be its relative simplicity. Current regulations (OS. 050 REDES DE DISTRIBUCIÓN DE AGUA PARA CONSUMO HUMANO) does not provide optimization in the design of pressurized piping systems that make water distribution. With the proposed methodology is intended to complement it. The methodology provides for optimization taking into account priority pipe Reynolds number, increasing the diameter of the pipe immediately above iteration commercial option that has more benefit/cost to reach minimum pressure load (10 m H2O) at the lowest cost, also allowing to track analysis of hydraulic calculation from a physical standpoint identifying the main pipes, as demonstrated in the application where mains are P1, P2, P7 and P8, which is logical correlation with the topography, that is, it takes larger diameter pipe for the dynamic load line is maintained at levels that ensure adequate pressure load in this area; which is obtained by reducing the frictional losses in increasing the pipe diameter.
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