ISSN Online: 2377-424X
ISBN Print: 0-89116-909-1
International Heat Transfer Conference 9
THE COOLING OF A CONTINUOUSLY STRETCHING SHEET AND CYLINDRICAL FILAMENT MOVING THROUGH A FLUID
Résumé
The cooling of a continuously stretching two-dimensional sheet and a cylindrical filament moving through a semi-infinite quiescent fluid region is investigated. The integral energy equations which predict the surface temperature of the sheet and filament are solved analytically for the case of the surface velocity being proportional to a power of the distance measured from the slot. For other types of prescribed surface stretching velocities, a numerical scheme is developed for solving a Volterra integral equation. The results are compared with published results where available, and otherwise are compared among themselves.