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UUM 632
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Course Information
Course Weekly Lecture Plan
Course Evaluation Criteria
Course Information
Course Name
Turkish
Uçaklarda Buzlanma
English
Aircraft Icing
Course Code
UUM 632
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
-
3
3
-
-
Course Language
Turkish
Course Coordinator
Ahmet Cihat Baytaş
Course Objectives
1- Understanding of important of aircraft icing and the effect of it on the aerodynamics structure.
2- Learning to solve flow field equations around a airfoil.
3- Learning of solution of droplet trajectory equations
4- Learning of calculation of ice accretion .
5- Learning of anti-icing and de-icing.
Course Description
Physics of icing, meteorological phenomena, effect of icing on aerodynamic structure, mathematical model of ice accretion, trajectory of super cooled large droplets, droplet collection efficiency, flow field equations, Navier Stokes equations, drag coefficient, droplet trajectory equations, Lagrangian and Eulerian approach, void fraction of droplet, properties of droplets, thermodynamics of icing, extended Massenger model, mass, energy, internal energy equations, anti- icing, de-icing, certification.
1- Uçaklarda buzlanmanın önemi ve aerodinamik yapıya etkisini anlama.
2- Kanat kesiti etrafında hava akışını çözebilmek.
3- Damlacık yörünge denklemlerini çözümünü öğrenmek.
4- Biriken buz miktarını hesaplamak
5- Buzlanmayı önleme ve giderme işlemlerini öğrenmek.
Course Outcomes
M.Sc./Ph.D. students who successfully pass this course gain knowledge, skill and competency in the following subjects;
1- Physics of icing.
2- Different types of icing in aircraft, energy cable, wind turbine.
3- To flow field around airfoil and to calculate the ice accretion amount.
4- To solve the droplet trajectory equations, where and at what rate the water droplets are deposited on the airfoil.
5- Thermodynamics analysis of icing.
6- Anti-icing, de-icing and certification.
Pre-requisite(s)
no
Required Facilities
Other
Textbook
Cebeci,T. (1999). An Engineering Approach to yhe Calculation of Aerodynamic Flows, Springer, Horizons Publishing.
Other References
Cebeci,T. (1999). An Engineering Approach to yhe Calculation of Aerodynamic Flows, Springer, Horizons Publishing.
Cebeci,T., Shao, J.P., Kafyeke, F., Laurendeau, E. (2005). Computational Fluid Dynamics for Engineers, Springer, Horizons Publishing.
Gent, R.W., Dart, N.P., Cansdale,J.T.,(2000). Aircraft icing, Phil. Trans. R. Soc. Lond. A, ,358, 2873-2911.
Myers., T., (2001). Extension to the Messinger Model for Aircraft icing, AIAA Journal,39(2), 211-218.
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