Bibliographic citations
Gonzales, M., Mejia, R. (2023). Diseñar un banco de pruebas para turbinas de micro centrales hidroeléctricas constituido por una turbina Pelton de dos inyectores y una turbina Kaplan para la generación de 1 kW [Trabajo de suficiencia profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/671146
Gonzales, M., Mejia, R. Diseñar un banco de pruebas para turbinas de micro centrales hidroeléctricas constituido por una turbina Pelton de dos inyectores y una turbina Kaplan para la generación de 1 kW [Trabajo de suficiencia profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/671146
@misc{renati/1296481,
title = "Diseñar un banco de pruebas para turbinas de micro centrales hidroeléctricas constituido por una turbina Pelton de dos inyectores y una turbina Kaplan para la generación de 1 kW",
author = "Mejia Ramos, Renzo Alex",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The renewable energy trend has impacted the performance of micro hydroelectric power plants, driving the development of dedicated turbine test rigs. These research lines allow a physical analysis of the operation and consequently optimize the micro-hydro design's performance. The present work of sufficiency shows the design of a Kaplan and Pelton turbine test rig for the generation of 1 kW of electric power. This system has 2 pumps to drive the water to each turbine from a reservoir, and each pipeline has a flow regulator to control the electrical frequency generated; which represents the power. In this design an efficiency of 57.2% was obtained for the Kaplan turbine and 81.5% for the Pelton turbine. The turbine designs were simulated, and their behaviors were identified for control. The cascade frequency controller maintains constant power generation with a maximum settling time of 5 seconds and a maximum overshoot of less than 5%. Therefore, the simulation of the test rig allows a better understanding of the turbine's behavior and the hydroelectric generation process.
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