Bibliographic citations
Estrada, M., (2017). Implementación de un sistema de extracción de monóxido, para minimizar el costo energético en el estacionamiento de naranjal de una empresa rubro automotor, año 2016 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/11844
Estrada, M., Implementación de un sistema de extracción de monóxido, para minimizar el costo energético en el estacionamiento de naranjal de una empresa rubro automotor, año 2016 [Tesis]. PE: Universidad Privada del Norte; 2017. https://hdl.handle.net/11537/11844
@misc{renati/510707,
title = "Implementación de un sistema de extracción de monóxido, para minimizar el costo energético en el estacionamiento de naranjal de una empresa rubro automotor, año 2016",
author = "Estrada Lopez, Miguel Angel",
publisher = "Universidad Privada del Norte",
year = "2017"
}
ABSTRACT The present thesis was developed for the implementation of a system of extraction of monoxide, to minimize the energetic cost in the Chevrolet parking lot. It is very important that underground parking lots have a mechanical ventilation system for extracting the gases emitted by vehicles, the most deadly gas emitted by vehicles is carbon monoxide. In the Peruvian market there is the traditional buried duct and jetfan monoxide extraction system, but each one leads to a higher energy consumption than the other, which then becomes very high fixed costs for the company. In order to minimize the energy cost, a new reengineering was proposed in the monoxide extraction system by a Jetfan monoxide extraction system. The project was framed in the research of mechanical ventilation engineering in parking lots. Peruvian standards in force (Technical Standard E.M. 030 Ventilation Installations), technical datasheets of suppliers of ventilation equipment (Soler & Palau Technical Memory) and (Technical Memory TCP Fan Fan Tuboaxial Fan), In the book of the American Association of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE) and the knowledge acquired in the field of mechanical ventilation. On the other hand was used the methodology of the 7 steps that allowed us to identify the cusas of the energy consumption of the traditional extraction system. For the implementation of the Jetfan monoxide extraction system, the flow calculations had to be carried out in m3 / h of total parking area, the HP engine power of the centrifugal extraction equipment, the pressure drop of the extraction duct in mm.c.d.a, radius of work of the monoxide detectors in m2 and calculation of the amount of axial tube equipment (Jetfan) according to the flow of the parking lot. With the implementation of the Jetfan monoxide extraction system we were able to minimize the monthly energy consumption to 2,238 KW / H compared to the traditional system that consumed 5,327.4 KW / H and the energy cost was reduced to 892.73 soles, compared to the traditional system that its electric cost was Of 2,125.36 soles, obtaining a monthly saving of 1,232.36 soles. KEYWORDS: monoxide system, mechanical ventilation, jetfan system, monoxide.
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