Diseño y dimensionamiento de una Turbina Michell Banki como modelo de aprendizaje para el laboratorio de la Escuela de Ingeniería Mecánica
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Date
2024-07
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Universidad Nacional de Trujillo
Abstract
El presente estudio tiene como objetivo construir un módulo a escala de turbina Michel Banki de baja potencia en la Escuela Académico Profesional de Ingeniería Mecánica perteneciente a la Facultad de Ingeniería, de la Universidad Nacional de Trujillo.
La investigación en estudio es de tipo correlacional y con un diseño no experimental. Como técnicas principales se utilizaron la revisión organizada de la información, uso de software de modelado y diseño.
Los principales resultados mostraron las medidas de las principales dimensiones para la construcción de la turbina, los cuales se evidenciaron en la medida del caudal de 0,0183 m3/s y una altura de 5 m. Se diseñó los elementos que constituye el módulo de la turbina Michel Banki con el programa 3D. Por lo general, la turbina es independiente de su escala de generación, la diferencia radica en los niveles de cabeza hidráulica (altura), un caudal constante, una tubería de aspiración, un distribuidor, un rodete y una salida. Como resultado, cada una tiene características únicas que las hacen adecuadas para condiciones específicas de caudal y altura. Se recomienda realizar la construcción del diseño del modelo de la turbina Michel Banki.
The objective of this study is to build a low-power Michel Banki turbine-scale module at the Professional Academic School of Mechanical Engineering belonging to the Faculty of Engineering of the National University of Trujillo. The research under study is correlational and has a non-experimental design. The main techniques were the organized review of information, use of modeling and design software. The main results showed the measurements of the main dimensions for the construction of the turbine, which were evidenced in the measurement of the flow rate of 0,0183 m3/s and a height of 5 m. The elements that constitute the Michel Banki turbine module were designed with the 3D program. Generally, the turbine is independent of its generation scale, the difference lies in the levels of hydraulic head (height), a constant flow, a suction pipe, a distributor, an impeller and an outlet. As a result, each has unique characteristics that make them suitable for specific flow and head conditions. It is recommended to construct the design of the Michel Banki turbine model.
The objective of this study is to build a low-power Michel Banki turbine-scale module at the Professional Academic School of Mechanical Engineering belonging to the Faculty of Engineering of the National University of Trujillo. The research under study is correlational and has a non-experimental design. The main techniques were the organized review of information, use of modeling and design software. The main results showed the measurements of the main dimensions for the construction of the turbine, which were evidenced in the measurement of the flow rate of 0,0183 m3/s and a height of 5 m. The elements that constitute the Michel Banki turbine module were designed with the 3D program. Generally, the turbine is independent of its generation scale, the difference lies in the levels of hydraulic head (height), a constant flow, a suction pipe, a distributor, an impeller and an outlet. As a result, each has unique characteristics that make them suitable for specific flow and head conditions. It is recommended to construct the design of the Michel Banki turbine model.
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TECHNOLOGY::Engineering mechanics