Bibliographic citations
Chuckón, Z., (2023). Diseño de un sistema contraincendios basado en las normas NFPA y el desempeño para mejorar la prevención y extinción de incendios en una central de generación de energía de 200 MW [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/26964
Chuckón, Z., Diseño de un sistema contraincendios basado en las normas NFPA y el desempeño para mejorar la prevención y extinción de incendios en una central de generación de energía de 200 MW [Tesis]. PE: Universidad Nacional de Ingeniería; 2023. http://hdl.handle.net/20.500.14076/26964
@misc{renati/712858,
title = "Diseño de un sistema contraincendios basado en las normas NFPA y el desempeño para mejorar la prevención y extinción de incendios en una central de generación de energía de 200 MW",
author = "Chuckón Martínez, Zenón Abdón",
publisher = "Universidad Nacional de Ingeniería",
year = "2023"
}
The objective of the present investigation is to design a fire protection system (SPCI) of an Power Generation Plant (PERU) with a power of 200MW based on the modern concept of Performance that analyzes not only the regulations but also the functionality. safety of the plant in all its aspects such as the protection of buildings, the integrity and safe evacuation of workers, as well as the continuity of the operation of the plant. The SPCI has a PCI water pumping system, with the following configuration: a flow (or main) pump driven by an electric motor, 100% of the overall design capacity, with a safety valve in the impulsion. A flow pump (relief) driven by a diesel engine of 100% of the overall design capacity with a discharge safety valve and a Jockey pump to maintain the pressure driven by an electric motor. Impulsion and test collector with their respective suction lines from the water tanks and return for tests to both tanks connected at two points to the buried water distribution ring. Starting battery. Valves and associated instrumentation, including flow meter. Electrical panel and power and instrumentation connections. The SPCI is also supported by an extinction, detection and alarm system required by current regulations, with emergency power supplies, power wiring, control wiring, Detection wiring, Trays and Conduit for power, control and detection wiring. Integration of the fire detection system with the general DCS of the plant. Emergency signage. Weather protection means for components located in outdoor areas (cabinets, booths for cabinets, fire extinguishers, control posts, switchboards). To serve five fire zones of the Power Generation plant according to NFPA standards. Zone A Water treatment and auxiliary facilities. Zone B Fuel storage. Zone C Auxiliary buildings, offices, workshop, warehouse, control booth. Zone D Auxiliary generators and associated services and Zone E Power block areas. The research has a quantitative approach, with a perception of objective reality and through deductive reasoning where the hypothesis will be contrasted since the purpose is given by verification, confirmation and reduction, oriented to the result. The origin of truth is particular and focuses on coincidences, referring to causality and is based on specific antecedents. Thus, through the use of the (National Fire Protection Association) NFPA and (The Institute of Electrical and Electronic Engineers) IEEE standards, a Fire Protection System (SPCI) based on the Performance concept of the 200MW power generation plant is a fundamental criterion that provides economy and safety of operation in emergencies.
This item is licensed under a Creative Commons License