In the present paper, a horizontal elliptical duct filled by a fluid saturated porous medium is considered. The boundary wall of the duct is assumed to be impermeable and subjected to an environment temperature thermally stratified in the vertical direction. Darcy’s law and the Oberbeck-Boussinesq approximation are assumed. The stationary basic flow given by a zero velocity distribution and a linear vertical temperature distribution is determined analytically and its linear stability is studied numerically. The elliptic equations for the linear disturbances are written in terms of an eigenvalue problem and solved by employing a Galerkin finite element procedure, in order to determine the critical conditions for the onset of the convective instability.
The Darcy-Benard problem in an elliptic duct with a thermally stratified environment / E. Rossi di Schio. - In: JP JOURNAL OF HEAT AND MASS TRANSFER. - ISSN 0973-5763. - STAMPA. - 6:(2012), pp. 291-309.
The Darcy-Benard problem in an elliptic duct with a thermally stratified environment
ROSSI DI SCHIO, EUGENIA
2012
Abstract
In the present paper, a horizontal elliptical duct filled by a fluid saturated porous medium is considered. The boundary wall of the duct is assumed to be impermeable and subjected to an environment temperature thermally stratified in the vertical direction. Darcy’s law and the Oberbeck-Boussinesq approximation are assumed. The stationary basic flow given by a zero velocity distribution and a linear vertical temperature distribution is determined analytically and its linear stability is studied numerically. The elliptic equations for the linear disturbances are written in terms of an eigenvalue problem and solved by employing a Galerkin finite element procedure, in order to determine the critical conditions for the onset of the convective instability.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
