LASER-INDUCED IGNITION OF REACTIVE SOLIDS WITH ROUGH SURFACE

  • Jae-Ou Chae (Dept. of Mechanical Engineering, INHA Univ.) ;
  • Gregory N. Mokhin (N.N. Semenov Inst. Of Chemical Physics) ;
  • Nam-Ki Kim (Dept. of Mechanical Engineering, INHA Univ.)
  • Published : 1995.05.01

Abstract

Ignition of a reactive solid with rough surface by constant heat flux is studied. The geometry of surface is represented by a protrusion in shape of cone of infinite length. Ignition time and ignition criterion versus apex angle are determined, with the use of heterogeneous model of ignition. To study the effect of geometry on ignition the results are compared with the known results for the one-dimensional ignition of the semi-infinite body. It is shown, that: a) ignition time depends strongly upon the apex angle and is proportional to the angle to the second power; b) ignition criterion and ignition temperature do not depend strongly on angle. The ignition delay and the energy required for the successful ignition are substantially reduced compared to the one-dimensional case.

Keywords