Welcome,
Guest
.
Login
.
Türkçe
NİNOVA
COURSES
HELP
ABOUT
Where Am I:
Ninova
/
Courses
/
Institute of Science and Technology
/
UUM 621E
/
Course Informations
Return to Faculty
Home Page
Course Information
Course Weekly Lecture Plan
Course Evaluation Criteria
Course Information
Course Name
Turkish
Advanced Problems in Compressible Flow
English
Advanced Problems in Compressible Flow
Course Code
UUM 621E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
-
3
3
-
-
Course Language
English
Course Coordinator
Kemal Bülent Yüceil
Course Objectives
1- To give the fundamentals of compressible flow
2- To investigate the variations of fluid properties in high speed flow
3- To investigate the basic aerodynamic propertios of the bodies in compressible flow
Course Description
Review of basic thermodynamics, conservation equations, constitutive relations, steady isentropic flow, shock waves, expansion waves, applications of isentropic flow/shocks/expansions. Real gas effects, flow with heat addition or removal, unsteady wave motion, physics of shock waves, methods of characteristics, conical flow, the time-marching technique and its application to blunt body flows, high Mach number flows.
Course Outcomes
M.Sc./Ph.D. students who successfully pass this course gain knowledge, skill and competency in the following subjects;
1- Can model, simplify, and apply the fundamental equations for compressible flow to find the basic properties of compressible flow
2- Can find the basic aerodynamic properties of the bodies by calculating the subsonic and supersonic flow properties
3- Can make fundamental calculations for supersonic wind tunnels, nozzles and diffusers
4- Can calculate the properties of transonic and hypersonic flow for basic geometries
Pre-requisite(s)
Required Facilities
Other
Textbook
Anderson, J.D., 2003. Modern Compressible Flow, 3rd Editionö Mc Graw-Hill
Other References
2- Oosthuizen, P.H., and Carcscallen W.E., 1997. Compressible Fluid Flow, McGraw-Hill.
3- Saad, M.A., 1992. Compressible Fluid Flow, Prentice Hall.
4- Shapiro, A.H., 1953. The Dynamics and Thermodynamics of Compressible Fluid Flow, John Wiley & Sons.
5- Liepmann, H.W., and Roshko A., 1957. Elements of Gas Dynamics, John Wiley & Sons
Courses
.
Help
.
About
Ninova is an ITU Office of Information Technologies Product. © 2024