Transition from Conductive to Convective Heat Transfer in Fluid-Filled Porous Materials,

Abstract

The heat transfer mechanism for an infinite, horizontal, fluid-saturated, homogeneous, porous slab is analyzed by assuming the validity of Darcy's law. By perturbing the equilibrium configuration, it is shown that there exists a stability condition for the temperature gradient Beta such that for Beta is greater than 4 pi squared Kappa divided by K sub Alpha h squared (where Kappa is the thermal diffusivity, K is the permeability, h is the thickness through which the thermal gradient is established and Alpha is the bulk thermal expansion coefficient of the fluid), the mechanism of heat transfer changes from conductive to primarily convective. The role of this stability criterion in DDT (deflagration-to-detonation transition) or porous explosives and propellants is discussed.

Open PDF

Document Details

Document Type
Technical Report
Publication Date
Jul 01, 1981
Accession Number
ADA125472

Entities

People

  • A. A. Campolattaro
  • G. R. Laib

Organizations

  • Naval Ordnance Laboratory

Tags

Communities of Interest

  • Weapons Technologies

DTIC Thesaurus Topics

  • Air Force
  • Chemical Reactions
  • Coefficients
  • Combustion
  • Energetic Materials
  • Explosives
  • Heat Transfer
  • High Explosives
  • Jet Propulsion
  • Military Research
  • Porous Materials
  • Propellant Grains
  • Propellants
  • Solid Propellants
  • Temperature Gradients
  • Thermal Conductivity
  • Thermal Diffusivity

Readers

  • Analytical Mechanics
  • Fluid Dynamics.