Diseño de acondicionamiento de aire y ventilacion en las zonas criticas del Hospital Camino Nuevo Barraquilla

This engineering project aims to design the air conditioning and mechanical ventilation system of the critical areas of the Camino Nuevo Barranquilla Hospital, meeting the technical requirements, also seeks to meet customer expectations, taking into account the current context of the pandemic due to...

Full description

Autores:
Mezamell Rodelo, Álvaro José
Ortega Gutiérrez, Jafeth Jarith
Tuirán Pérez, Marcos Enrique
Orozco D'farnesio, Luisa María
Tipo de recurso:
Fecha de publicación:
2021
Institución:
Universidad del Norte
Repositorio:
Repositorio Uninorte
Idioma:
spa
OAI Identifier:
oai:manglar.uninorte.edu.co:10584/9575
Acceso en línea:
http://hdl.handle.net/10584/9575
Palabra clave:
Caida de presion, chiller, red de agua fria, manejadoras, filtros, ductos, ventilador
Pressure drop, chiller, cold water network, handlers, filters, ducts, fan
Rights
License
Universidad del Norte
Description
Summary:This engineering project aims to design the air conditioning and mechanical ventilation system of the critical areas of the Camino Nuevo Barranquilla Hospital, meeting the technical requirements, also seeks to meet customer expectations, taking into account the current context of the pandemic due to Covid-19. The design was carried out based on ASHRAE standards 170 and 52.2, which dictate the guidelines to be followed in the design process for medical facilities. Camino Nuevo Barranquilla Hospital is under construction and is part of the 2020-2023 Development Plan. The areas that were designed in this building are: emergency room, observation rooms, operating rooms, preparation room, recovery room, isolation rooms and Intensive Care Units (ICU). The design methodology used in this project includes the basic design stages, in which the thermal load of the spaces to be conditioned was calculated; the conceptual design stage, where the different design alternatives that could solve the design problem were proposed. Thus, in the conceptual design stage, the different types of air conditioning systems were analyzed and compared, and an air-condensed chiller system was selected as the winning alternative. Then, in the detailed design stage, the air and chilled water distribution systems were sized. In addition, pumps, accessories, chiller units, handlers and filter banks were selected. In addition to the above, a risk analysis was performed for the assembly of equipment and distribution systems. Finally, with the help of experts in the field, recommendations were made regarding the electrical network and the control system for the correct operation of the equipment, since these were outside the initial scope.

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