Add to ORKGAn analytical study of thermal explosion on Newtonian and non-Newtonian fluid is carried out. Approximate solutions to the governing equations and analysis of the study in the Newtonian case, showed that an increase in Frank-Kamenestkii parameter and that of the Semenov parameter decreases the minimum temperature of the reacting fluid thereby delaying the initiation of thermal explosions while additional heat source brings about early initiation of thermal explosions. The same observation was deduced in the non-Newtonian case but in varying degrees
In this paper we study the interaction between natural convection and heat explosion in porous media...
The problem about thermal explosion of a plane reagent layer is analytically solved under the non-sy...
Steam explosions result from the flash of liquid water into steam. The leading parameters that drive...
Thermal (or heat) explosion occurs in a reacting medium if the heat production due to an exothermic ...
When any exothermic reaction proceeds in an unstirred vessel, natural convection may develop. This f...
International audienceIn this paper we investigate, numerically as well as analytically, the influen...
In the classical theory of thermal explosions, the condition for explosion to occur is that a partic...
AbstractPhysical and hydrodynamic processes, accompanying explosions of condensed explosives and fue...
We have analyzed the condition needed for thermal explosion to occur in a solid sample when the tem-...
Critical conditions of the thermal explosion of a hollow cylinder are investigated at asymmetric bou...
The paper deals with the effect of dimensionless non - Newtonian coefficient on the thermal stabilit...
The objective of the proposed research is to investigate the influence of various aerodynamical, dif...
Abstract: This study discusses the influence of heat loss on the critical ignition temperature and F...
Thermal stability of reacting masses, whose thermal conductivity is a function of temperature, is in...
This paper investigates effects of buoyancy-driven motion on the ‘‘slowly reacting” mode of combusti...
In this paper we study the interaction between natural convection and heat explosion in porous media...
The problem about thermal explosion of a plane reagent layer is analytically solved under the non-sy...
Steam explosions result from the flash of liquid water into steam. The leading parameters that drive...
Thermal (or heat) explosion occurs in a reacting medium if the heat production due to an exothermic ...
When any exothermic reaction proceeds in an unstirred vessel, natural convection may develop. This f...
International audienceIn this paper we investigate, numerically as well as analytically, the influen...
In the classical theory of thermal explosions, the condition for explosion to occur is that a partic...
AbstractPhysical and hydrodynamic processes, accompanying explosions of condensed explosives and fue...
We have analyzed the condition needed for thermal explosion to occur in a solid sample when the tem-...
Critical conditions of the thermal explosion of a hollow cylinder are investigated at asymmetric bou...
The paper deals with the effect of dimensionless non - Newtonian coefficient on the thermal stabilit...
The objective of the proposed research is to investigate the influence of various aerodynamical, dif...
Abstract: This study discusses the influence of heat loss on the critical ignition temperature and F...
Thermal stability of reacting masses, whose thermal conductivity is a function of temperature, is in...
This paper investigates effects of buoyancy-driven motion on the ‘‘slowly reacting” mode of combusti...
In this paper we study the interaction between natural convection and heat explosion in porous media...
The problem about thermal explosion of a plane reagent layer is analytically solved under the non-sy...
Steam explosions result from the flash of liquid water into steam. The leading parameters that drive...