id-4: V. T. IONAL TE. HOOL OF. CHANICAL. UTOMATIC. NE ELEM ctor: Th. roceeding. Fluid P. Viscous. SM-F heodore. AT. ECHNICAL. F MECHA. CONSTR.
NATIIONAL TE ECHNICAL L UNIVER RSITY OF A ATHENS
SCH HOOL OF F MECHA ANICAL ENGINEE E ERING
MEC CHANICAL CONSTRUCTIONS AND AU UTOMATIC C CONTRO OL SECTIO ON
MACHIN M NE ELEM MENTS LABOR RATORY Y Direc ctor: Th.. Costop poulos, D.Sc. D
NTUA A ME Prroceedinggs of Maachine Deesign Traaining Fluid P Power Sy ystems Fluiid-4: Viscous V flow an nd Boun ndary la ayer
SM-F LUID-TR R-0501
Theodore Costopoulos, D.S Sc.
AT THENS 20 005
FLUID-4 Viscous flow and Boundary layer CONTENTS
Derivation of the equations of motion of a compressible viscous fluid (Navier-Stokes equations), some exact solutions of the Navier-Stokes equations, very slow motion, laminar boundary layer theory, approximate method for boundary layer in flat plate, similar solutions (wedge-type flow, 2-D stagnation point, 2-D bodies, axisymmetric stagnation point, arbitrary body of revolution), boundary layer on a body of revolution, approximate integral method, numerical solutions of 2-D boundary blayer equation.