• Title of article

    Effects of turbulent intensity and droplet diameter on spray combustion using direct numerical simulation

  • Author/Authors

    Wang، نويسنده , , Haiou and Luo، نويسنده , , Kun-Wu Fan، نويسنده , , Jianren، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    8
  • From page
    311
  • To page
    318
  • Abstract
    Direct numerical simulation (DNS) of heptane reacting sprays in a slab region is performed to investigate the effects of turbulence and droplet size on the evolutions of spray combustion. The gas phase is simulated using an Eulerian approach; while the droplets are treated with a Lagrangian method. The coupling between the two phases is considered. It is shown that the mean normalized squared droplet diameter decreases linearly for the cases studies, featuring the d2 law. Turbulence is proved to be of advantage to evaporation while droplet diameter greatly affects the evaporating rate and the evaporation lifetime. The conditional evaporating rate is found to increase linearly with the mixture fraction. The log-normal distribution for the scalar dissipation rate is examined, and reasonably good agreements are obtained between the DNS results and the model predictions. A parameter characterizing the amount of burning in premixed regime, Wp, is analyzed. Two stages of combustion are identified for the base case: most of the burning occurs in a non-premixed fashion following auto-ignition, and then premixed combustion becomes prevalent. It is shown that the fraction of premixed combustion generally increases with turbulent intensity and decreases with droplet diameter.
  • Keywords
    Evaporation , Numerical simulation , spray combustion , Flamelet structure , Combustion regime
  • Journal title
    Fuel
  • Serial Year
    2014
  • Journal title
    Fuel
  • Record number

    1471823