• Title of article

    Development of a pyrolysis model for corrugated cardboard

  • Author/Authors

    McKinnon، نويسنده , , Mark B. and Stoliarov، نويسنده , , Stanislav I. and Witkowski، نويسنده , , Artur، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    13
  • From page
    2595
  • To page
    2607
  • Abstract
    The current study outlines a general approach to construct a one-dimensional pyrolysis model based on milligram-scale and bench-scale test data collected systematically to isolate a specific process in each test. This approach is demonstrated by developing a model of burning for corrugated cardboard. Thermogravimetric analysis and differential scanning calorimetry were conducted on pulverized cardboard to determine the thermal degradation mechanism, the enthalpy of decomposition reactions, and the heat capacities of apparent species. Data collected in pyrolysis-combustion flow calorimetry tests were analyzed to assign a heat of combustion to the volatiles evolved from each reaction. Bench-scale tests were conducted with a cone calorimeter on samples in a horizontal orientation to observe the flaming combustion of this material at external heat fluxes ranging from 20 to 80 kW m−2. Condensed phase temperature data was collected in these tests to measure and infer thermal transport properties and to characterize property changes associated with thermal degradation through an iterative inverse analysis. All the parameters determined through analysis of the milligram-scale and bench-scale tests were used to construct a one-dimensional pyrolysis model that predicted the average mass loss and heat release rates from cone calorimeter tests to within, on average, 17% and the times to ignition to within 2 s.
  • Keywords
    Thermal degradation kinetics , Burning rate , Lignocellulosic materials , Thermophysical properties , Solid combustion , Engineered materials
  • Journal title
    Combustion and Flame
  • Serial Year
    2013
  • Journal title
    Combustion and Flame
  • Record number

    2277099