Implementación de un módulo de bombeo para la evaluación de parámetros hidráulicos en el laboratorio de la Universidad Técnica de Cotopaxi, campus La Matriz, en el periodo 2021

Implementación de un módulo de bombeo para la evaluación de parámetros hidráulicos en el laboratorio de la Universidad Técnica de Cotopaxi, campus La Matriz, en el periodo 2021

A pumping system has been implemented for the technological proposal that allows experimenting and evaluating the behavior of the hydraulic parameters exposed to three-phase pumping equipment. These parameters vary depending on the structures and pumping equipment, subsequently an experimental modul...

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Bibliographic Details
Main Author: Iza Pilatasig, Jefferson Mauricio (author)
Format: bachelorThesis
Language:spa
Published: 2022
Subjects:
PARÁMETROS HIDRÁULICOS
VARIADOR DE FRECUENCIA
REVOLUCIONES DE LA BOMBA
ELÉCTRICA
POTENCIA
Online Access:http://repositorio.utc.edu.ec/handle/27000/9310
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Summary:A pumping system has been implemented for the technological proposal that allows experimenting and evaluating the behavior of the hydraulic parameters exposed to three-phase pumping equipment. These parameters vary depending on the structures and pumping equipment, subsequently an experimental module has been carried out with two three-phase pumps of 745.7 W of power and a frequency inverter to control the revolutions of the pump and in this way experience the behavior of the parameters. A collection of necessary data has been carried out to propose a suitable module for data collection and ease of operation. Once the experimental module was carried out, tests were carried out in which it is determined that the flow of a pumping system will depend on two factors, the first is the power of the pump and its revolutions, the second is the diameter of the pipe. In the test phase with different pipe diameters, it is verified that for a three-phase 745.7 W pump it has flows of (54.54; 40.44; 27.48) l/min in pipes of (33.40; 26.67; 21.34) mm respectively, having a decrease in the flow 25% and 50% compared to the larger pipe. In contrast, with the comparison of energy consumption, a consumption of (0.017; 0.026; 0.040) kWh is recorded, from the largest pipe to the smallest, respectively. In conclusion, it has been determined that in order to maximize the capacity of a pump, the diameter of the pipe should not be reduced unless a lower flow rate is actually required.

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