Bibliographic citations
Gonzales, W., Cordova, A. (2023). Propuesta para incrementar la disponibilidad de las turbinas de una Central Termoeléctrica mediante la gestión del mantenimiento centrado en la confiabilidad [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/670208
Gonzales, W., Cordova, A. Propuesta para incrementar la disponibilidad de las turbinas de una Central Termoeléctrica mediante la gestión del mantenimiento centrado en la confiabilidad [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/670208
@misc{renati/409572,
title = "Propuesta para incrementar la disponibilidad de las turbinas de una Central Termoeléctrica mediante la gestión del mantenimiento centrado en la confiabilidad",
author = "Cordova Luque, Albert Blas",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
To ensure a reliable and continuous supply of electrical power, maintenance management is essential in a thermal power plant. Although the turbines of these power plants are crucial for power generation, their maintenance is a constant concern. Research focusing on the implementation of a reliability-centered maintenance (RCM) strategy has been proposed to effectively address this challenge. it is a technique that focuses on maximizing asset availability by identifying and prioritizing critical failure modes and creating effective maintenance plans. The objective of this research is to suggest a specific RCM strategy to improve turbine availability in a thermal power plant. The study begins by theoretically examining RCM and how it can be used in a thermal power plant. Specific maintenance problems in this environment are identified and useful suggestions for addressing them are presented. These include the implementation of a real-time monitoring system, prioritization of maintenance tasks, and identification of critical failure modes. In addition, a detailed financial analysis is carried out in order to assess the economic viability of the proposal. The results show that, with a positive Net Present Value (NPV) and an attractive Internal Rate of Return (IRR), the investment in RCM implementation is well supported. Finally, it is highlighted that the implementation of this proposal not only improves the availability of the turbines, but can also protect the environment by reducing CO2 emissions by achieving higher availability of the TV31 steam turbine. It is concluded that this research provides a solid and evidence-based roadmap to increase the availability of turbines in thermoelectric power plants. This will contribute to a more reliable, cost-effective and sustainable electricity supply.
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