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Course Description

Course Code Semester Teoric Credit ECTS
ADVANCED FLUID DYNAMICS MKM 605 0 3 + 0 3 6
Prerequisite Courses Elementary Fluid Mechanics
Recommended Elective Courses
Course Language Türkçe
Level of the Course Doktora
Course Type SECMELI
Course Coordinator Prof. Dr. YUSUF ÇAY
Instructor
Course Assistants
Course Category
Course Objective
Provide graduate students with background on the physical aspects of fluid mechanics, and use it to solve engineering problems, in which fluid flow takes place.
Course Content
Basic definitions, Kinematics of flow, Fundamental equations which govern fluid flow, Navier-Stokes equation and its analytical solutions, Non-dimensionalisation of the governing equations, Similarity solutions, Laminar boundary layer, Momentum-integral relations, Introduction to turbulent flow modeling
Learning Outcomes of the Course Teaching Methods Measurement Methods
1 - Ability to derive the fundamentals equations of mass, momentum, and energy, and understand the physical importance of each term, and energy, and understand the physical importance of each term 15 - 1 - C - A -
2 - Ability to nondimensionalise the governing equations of fluid flow, and determine the non-dimensional parameters that define the flow field 15 - 1 - C - A -
3 - Ability to make approximate analytical solutions of Navier-Stokes equation 1 - 15 - C - A -
4 - Ability to use the NS equations for solving simple real world problems 1 - 15 - A - C -
5 - Ability to derive and nondimensionalise the boundary layer equations 1 - 15 - A - C -
6 - Ability to make similarity solutions to NS equations, and distinguish laminar and turbulent boundary layer characteristics 1 - 15 - A - C -
Teaching Methods: 15:Problem Solving 1:Lecture
Measurement Methods: C:Homework A:Testing

Course Flow

Week Topics Preliminary
1 Introduction, Basic definitions
2 Kinematics of flow and vorticity
3 Fundamental equations which govern fluid flow
4 Mathematical behavior of governing equations, non-dimensionalisation of these equations, vorticity transport equation, stream function
5 Navier-Stokes equation and its analytical solutions
6 Navier-Stokes equation and its analytical solutions
7 Navier-Stokes equation and its analytical solutions
8 Navier-Stokes equation and its analytical solutions
9 Boundary layer concept and laminar boundary layer equations
10 Boundary layer concept and laminar boundary layer equations
11 Blasius solution, Falkner-Skan solutions
12 Momentum-integral approach
13 Flow separation
14 Introduction to turbulence modeling

Resources

Lecture Notes
Course Resources

Document Sharing


Contribution of the Course to Program Outcomes

No Program Learning Outcomes Contribution Level
1 2 3 4 5

Evaluation System

Contribution Level Order Percentage of Contribution
AraSinav 1 50
Odev 1 14
Odev 2 12
Odev 3 12
Odev 4 12
Total 100
The Ratio of the Semester to Success 60
Final to Success Ratio 40
Total 100

ECTS Workload

Activity Sayısı Time (Hour) Total Workload (Hour)
Course Duration (Including the exam week: 16x Total course hours) 16 3 48
Hours for off-the-classroom study (Pre-study, practice) 16 3 48
Mid-terms 1 8 8
Assignment 4 10 40
Final examination 1 8 8
Total Workload 152
Total Workload / 25 (h)Toplam İş Yükü /25(s) 6.08
ECTS Credit of the Course 6.08
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