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UZB 362E
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Course Information
Course Name
Turkish
Compressible Aerodynamics
English
Compressible Aerodynamics
Course Code
UZB 362E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
6
4
4
-
-
Course Language
English
Course Coordinator
Bayram Çelik
Course Objectives
To define compressibility and its effects on fundamental flow equations.
To teach students shock and expansion waves and related calculation methods.
To teach students linearization of fundamental equations and the conditions under which they apply.
To furnish the students with the ability to calculate the flowfield and aerodynamic forces in compressible flow.
Course Description
Two dimensional subsonic compressible steady and isentropic flows. Linear theory for subsonic and supersonic flows. Supersonic airfoils. Normal shocks. Oblique shocks. Expansion waves. Compressible flow through nozzles, diffusers, and wind tunnels.
Course Outcomes
On completing this course students should be able to
1. apply basic thermodynamic relations to flow problems. (a3,e2,h1,j1,k1)
2. obtain flow properties by using the governing equations of one dimensional inviscid flow. (a3,d1,e3,f1,j1,k2)
3. know normal shocks and calculate flow properties across them. (a3,b1,e3,j1,k2)
4. know phenomena related to the deflection of supersonic flow and calculate flow properties. (a3,b1,e3,j1,k2)
5. calculate compressible internal flows. (a3,b1,e3,f1,h1,i1,j1,k2)
6. know basic concepts of supersonic wind tunnels and perform initial sizing. (a3,b2,c1,d1,e3,f1,h1,i1,j2,k2)
7. calculate subsonic and supersonic compressible flow properties around airfoils. (a3,b1,e3,f1,i1,j2,k2)
8. know hypersonic flow properties and calculate flow properties for basic configurations. (a3,b1,c2,e3,f1,i1,j2,k2)
Pre-requisite(s)
UCK212E and AKM205E
Required Facilities
Other
Textbook
Fundamentals of Aerodynamics, Fourth Edition, J.D. Anderson, McGraw-Hill, 2007.
Other References
Aerodynamics for Engineering Students, Fifth Edition, E.L. Houghton and P.W. Carpenter, Butterworth-Heinemann, 2003.
Aerodynamics for Engineers, Fifth Edition, J.J. Bertin and M.L. Smith, Prentice-Hall, 2008.
Modern Compressible Flow: With Historical Perspective, Third Edition , J.D. Anderson, McGraw-Hill, 2003.
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