APPLICATION: GRAPHENE NANOCOMPOSITE FOR IMPROVEMENT OF VACCINE TRANSPORTATION COLD CHAIN

APPLICATION: GRAPHENE NANOCOMPOSITE FOR IMPROVEMENT OF VACCINE TRANSPORTATION COLD CHAIN

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Jorge Mario Patiño Acevedo
Hernán Francisco Villar Vega
Ramiro Antonio Isaza Escobar
Sergio Alfredo Matta López

Abstract

Vaccines are biological products that must be kept between 2˚C and 8˚C. If not, they lose effectiveness to the point of total inactivity. Seeking to enhance the useful life of vaccines when they must be transported to remote locations, the use of a mobile monitored cooling system (SMRM, by its Spanish acronym) using a graphene-reinforced polymer nanocomposite has been proposed. This nanocomposite improves the cooling or heating speed of thermal, electric, and electronic devices. This improvement aims to ensure that SMRM transported vaccines have a reduced exposure to temperatures outside the specified range, allowing for greater efficiency than when they are transported using commercial systems. As a result of this study, a cooling rate of 1.54 (˚C/min) and energy consumption of 6.67 W/h were achieved, demonstrating a significant improvement, which, compared to commercial systems, yields a 200% higher cooling rate and 41% less energy consumption.

Article Details

Author Biographies ##ver##

Jorge Mario Patiño Acevedo

Ingeniero de Materiales. Materiales Asertivos, Medellín, Colombia

Hernán Francisco Villar Vega

Ingeniero Electrónico, Especialización en Telecomunicaciones, Especialización en Gerencia de Proyectos. Red Tecnoparque SENA, Medellín, Colombia

Ramiro Antonio Isaza Escobar

Ingeniero Mecánico, Diseño Industrial, Especialización en Diseño Mecánico. Red Tecnoparque SENA, Medellín, Colombia

Sergio Alfredo Matta López

Ingeniero Informático, Especialización en Gerencia MBA. Red Tecnoparque SENA, Medellín, Colombia