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Research ArticleResearch

Application of the Finite Elemental Analysis to Modeling Temperature Change of the Vaccine in an Insulated Packaging Container during Transport

Changfeng Ge, Yujie Cheng and Yan Shen
PDA Journal of Pharmaceutical Science and Technology September 2013, 67 (5) 544-552; DOI: https://doi.org/10.5731/pdajpst.2013.00937
Changfeng Ge
Rochester Institute of Technology, Rochester, NY
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  • For correspondence: cfgmet@rit.edu
Yujie Cheng
Rochester Institute of Technology, Rochester, NY
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Yan Shen
Rochester Institute of Technology, Rochester, NY
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Abstract

This study demonstrated an attempt to predict temperatures of a perishable product such as vaccine inside an insulated packaging container during transport through finite element analysis (FEA) modeling. In order to use the standard FEA software for simulation, an equivalent heat conduction coefficient is proposed and calculated to describe the heat transfer of the air trapped inside the insulated packaging container. The three-dimensional, insulated packaging container is regarded as a combination of six panels, and the heat flow at each side panel is a one-dimension diffusion process. The transit-thermal analysis was applied to simulate the heat transition process from ambient environment to inside the container. Field measurements were carried out to collect the temperature during transport, and the collected data were compared to the FEA simulation results.

LAY ABSTRACT: Insulated packaging containers are used to transport temperature-sensitive products such as vaccine and other pharmaceutical products. The container is usually made of an extruded polystyrene foam filled with gel packs. World Health Organization guidelines recommend that all vaccines except oral polio vaccine be distributed in an environment where the temperature ranges between +2 to +8 °C. The primary areas of concern in designing the packaging for vaccine are how much of the foam thickness and gel packs should be used in order to keep the temperature in a desired range, and how to prevent the vaccine from exposure to freezing temperatures. This study uses numerical simulation to predict temperature change within an insulated packaging container in vaccine cold chain. It is our hope that this simulation will provide the vaccine industries with an alternative engineering tool to validate vaccine packaging and project thermal equilibrium within the insulated packaging container.

  • Finite elemental analysis
  • Insulated packaging container
  • Vaccine
  • Simulation
  • Temperature
  • © PDA, Inc. 2013
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PDA Journal of Pharmaceutical Science and Technology: 67 (5)
PDA Journal of Pharmaceutical Science and Technology
Vol. 67, Issue 5
September/October 2013
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Application of the Finite Elemental Analysis to Modeling Temperature Change of the Vaccine in an Insulated Packaging Container during Transport
Changfeng Ge, Yujie Cheng, Yan Shen
PDA Journal of Pharmaceutical Science and Technology Sep 2013, 67 (5) 544-552; DOI: 10.5731/pdajpst.2013.00937

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Application of the Finite Elemental Analysis to Modeling Temperature Change of the Vaccine in an Insulated Packaging Container during Transport
Changfeng Ge, Yujie Cheng, Yan Shen
PDA Journal of Pharmaceutical Science and Technology Sep 2013, 67 (5) 544-552; DOI: 10.5731/pdajpst.2013.00937
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Keywords

  • Finite elemental analysis
  • Insulated packaging container
  • vaccine
  • Simulation
  • Temperature

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