• Title of article

    Phase change material cellulosic composites for the cold storage of perishable products: From material preparation to computational evaluation

  • Author/Authors

    Melone، نويسنده , , Lucio and Altomare، نويسنده , , Lina and Cigada، نويسنده , , Alberto and De Nardo، نويسنده , , Luigi، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2012
  • Pages
    8
  • From page
    339
  • To page
    346
  • Abstract
    Warm temperature spikes represent one of the main spoilage causes of perishable good-stuffs. The development of packaging materials with thermal buffering properties represents a powerful solution to address the problems arising from an uncontrollable interruption during cold-chain logistic. we propose the use of phase change material (PCM) composites for the design of cold storage packaging. Two different concentrations (25 and 50% w/w) of commercially available micro-encapsulated PCM were homogeneously dispersed in paper matrix via conventional negative filtration techniques. The possibility of obtaining composites with different latent heats in the 4–10 °C range has been demonstrated via differential scanning calorimetry measurements. Heat transmission tests, simulating the heating processes typical of the removal from a cold room, were performed on a suitable multilayer configuration. The obtained materials show the ability to maintain the inner temperature for a duration up to 10-fold longer in time, when compared to a similar cellulose material with a thickness of 2 cm. Experimental results have been numerically assessed by considering the material thermal parameters as homogeneous. xperimental and computational approaches here discussed offer an easy way for the design of micro-encapsulated PCM–cellulose composite as building blocks in cold storage packaging design.
  • Keywords
    paperboard , cold storage , Active food packaging , Phase change materials
  • Journal title
    Applied Energy
  • Serial Year
    2012
  • Journal title
    Applied Energy
  • Record number

    1605080