• Title of article

    Effects of size on combustion of isolated methanol droplets

  • Author/Authors

    Awasthi، نويسنده , , Inkant and Gogos، نويسنده , , George and Sundararajan، نويسنده , , Thirumalachari Ramasami، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    14
  • From page
    1789
  • To page
    1802
  • Abstract
    Results are presented from numerical simulations of the combustion process of an isolated methanol droplet in a nearly quiescent ambient air (T∞ = 1200 K, and p∞ = 1 atm.). The focus is on the effects of size variation for droplets which are present in a practical spray. We show a gradual transition from a kinetically controlled regime of small droplets to a diffusion controlled regime of large droplets. The analysis underlines the importance of accurate chemical kinetics, especially for small droplets. With reduction in the droplet size, the flame-sheet approximation breaks down, and the flame becomes a larger reactive zone relative to the droplet, along with a concomitant reduction in the flame temperature. Fuel vapour accumulation and depletion affects the entire burning history significantly, and combustion characteristics, such as gasification rate, and flame stand-off ratio are time dependent, with increasing unsteadiness with reduction in size. Extinction diameters are found based on the sudden movement of the flame relative to the droplet. The effect of the initial droplet diameter and ambient temperature on the extinction diameter is presented. The main differences in the internal circulation flow fields for a large and a small droplet are presented.
  • Keywords
    Internal circulation , Kinetically controlled combustion , Flame-sheet approximation , Gasification rate
  • Journal title
    Combustion and Flame
  • Serial Year
    2013
  • Journal title
    Combustion and Flame
  • Record number

    2276969