Software que realice el diseño optimizado de líneas de conducción de agua determinando diámetros, involucrando válvulas de aire y desagües

Abstract

Drinking water systems are in charge of supplying the vital liquid to the population; its demand, complexity and cost increases in parallel with urban growth, demanding more and more benefits in terms of coverage and quality. The problem addressed is the lack of software that facilitates the optimized design of the impulsion water conduction considering the flow rates, minimum diameters, heights, cost of electrical energy and practical inferences when obtaining an efficient and safe design. A deductive methodology is applied when characterizing the relationships between variables using the C Sharp language through the discretization of the criteria through object-oriented programming The results present a graphical interface that allows obtaining both technical and economic considerations of the hydraulic operation of an impulse conduction from the intake to the reservoir according to the local context to reduce design times and improve its implementation When entering the efficiency of the pump, required flow, height difference and diameter, the software returns the investment curves, pump price, pipeline and iterates until converging in the smallest amount possible, giving the best possible combination of values when constructing the analyzed pipeline.