Unidirectional unsteady flow of an instantaneously heated gas out of a cylinder with various locations of the heating zones
Abstract
A finitedifference method is used to solve a onedimensional problem concerning the decay of a pressure jump produced by the instantaneous heating of a gas inside a finite cylinder open at one end and sealed at the other end. The following cases are analyzed: (1) the heating zone encompasses the entire cylinder and (2) the heating zone is confined to a part of the cylinder either near the open end, in the middle of the cylinder, or at the closed end.
 Publication:

Inzhenerno Fizicheskii Zhurnal
 Pub Date:
 December 1982
 Bibcode:
 1982InFiZ..43.1020B
 Keywords:

 Computational Fluid Dynamics;
 Cylindrical Bodies;
 Gas Flow;
 Gas Heating;
 Pressure Distribution;
 Unsteady Flow;
 Adiabatic Flow;
 Finite Difference Theory;
 Gas Dynamics;
 Gas Pressure;
 One Dimensional Flow;
 Shock Tubes;
 Temperature Distribution;
 Fluid Mechanics and Heat Transfer