• Title of article

    Investigations of high-temperature oxidation of sludge fibers

  • Author/Authors

    Saade، نويسنده , , Raafat G and Kozi?ski، نويسنده , , Janusz A، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2000
  • Pages
    18
  • From page
    121
  • To page
    138
  • Abstract
    The behavior of pulp and paper sludge fibers during oxidation in air was investigated experimentally using a high-temperature thermogravimetric system (TGA). A sludge sample (1.0 g) was heated in the TGA furnace at a rate of 40°C/min up to a specified maximum temperature at which it was kept for 10 min. The sample was then cooled to room temperature at 5°C/min. Experiments were performed for different maximum temperatures ranging from 750°C to 1500°C. The influence of the thermal input on the sludge mass decay and the effect of temperature on the physical changes in the sludge structure were determined. found that the combustion of sludge fibers took place in three stages. The transition from one stage to the other was identified by a change in the slope of the mass loss curve. Stage one (temperature<400°C) was dominated by devolatilization with a constant mass loss rate. Almost 68% of the total sample mass loss occurred in this stage. Stage two (temperature>400°C) was dominated by char oxidation with a nonlinear mass loss rate. Stage three entailed the cooling period where no significant additional mass loss was observed. and ash samples obtained at different temperatures during the oxidation process were analyzed using quantitative scanning electron microscopy. Based on the physical properties of the sludge/ash samples, a new parameter δc called “Dynamic Heat Factor” was determined. Since δc takes into account the morphological changes of the sludge fibers as they decompose and provides an indication of the susceptibility of this material for further decomposition, it should be useful in the calculations of sludge waste combustion. It was found that δc drops sharply and linearly at temperatures below 600°C and decreases exponentially after that. Thus, the susceptibility of the sludge fibers to decompose decreases continually during the oxidation process while their resistance to thermal input increases. Calculations have shown that the optimal thermal input was around 32,000°C min. This thermal input provided the maximum loss of the sludge mass at optimum time and temperature.
  • Keywords
    Sludge fibers , Ash structure , Oxidation , COMBUSTION
  • Journal title
    Fuel Processing Technology
  • Serial Year
    2000
  • Journal title
    Fuel Processing Technology
  • Record number

    1506248