Diseño de un sistema de refrigeración para naves industriales del sector farmacéutico en la ciudad de Barranquilla

The design of a refrigeration system of a pharmaceutical warehouse of 968m ^ 2 in the city of Barranquilla is presented, which complies with the standards of good manufacturing practices for the storage of gelatin raw materials which need conditions of 20 ° C with maximum relative humidity of 55%, t...

Full description

Autores:
Prieto, Andres
Pacheco, Gabriel
Robles, Leonardo
Tipo de recurso:
Fecha de publicación:
2021
Institución:
Universidad del Norte
Repositorio:
Repositorio Uninorte
Idioma:
spa
OAI Identifier:
oai:manglar.uninorte.edu.co:10584/9573
Acceso en línea:
http://hdl.handle.net/10584/9573
Palabra clave:
chiller
refigeracion
carga termica
torre de enfriamiento
acondicionamiento de aire
humedad relativa
aislamiento
calor
Unidad manejadora
Air-handling unit
Chiller
Refrigeration
Thermal chargue
air conditioning
relative humidity
Isolation
Heat
Rights
License
Universidad del Norte
Description
Summary:The design of a refrigeration system of a pharmaceutical warehouse of 968m ^ 2 in the city of Barranquilla is presented, which complies with the standards of good manufacturing practices for the storage of gelatin raw materials which need conditions of 20 ° C with maximum relative humidity of 55%, taking into account the regulations associated with the sizing of air ducts related to the pharmaceutical sector, presenting a basic guide to the guidelines to follow for sizing air ducts, cold water production machines and calculations of thermal load received by the enclosure, leaving 3d models available to the reader that show in detail the layout of the equipment and the calculations to be taken into account for the correct operation of the system. Similarly, alternatives are presented in order to reduce the thermal load and its impact on the cost of energy consumption. In the exercise of this project, 4 air handling units, a 650kW water chiller, and the addition of a cooling tower are necessary to ensure the correct handling of the air in the room. It becomes necessary to resort to solutions that make the best use of the cooled air, using air recovery systems to the handling units in order to reduce the load ends. to vacate. In addition, as a possible follow-up to this project, it is proposed to carry out a study for the implementation of renewable energies that help reduce the electrical load taken from the system in such a way that the viability of the implementation of this project increases, taking into account that the greatest disadvantage of Barranquilla is the large amount of heat that must be dislodged due to solar radiation, the same reason that could make this proposal feasible.

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