Course Code:                               : 5103204

  Course Name                               :  Advanced Fluid Mechanics  II

  Instructor                                      : Assist. Prof. Refet KARADAĞ

  Theoretical /  Practical / Credit : 3 / 0 / 3

 Learning Activity

Estimated Time(Hour)

Evaluation

Theoretical Course (14 Week)

3 x 14 = 42

Participation to class

Guided Problem Solving

None

 

Individual Study

3 x 14 = 42

 

Weekly homework problems solving

1 x 14 = 14

Individual or teamwork and report preparation for homework’s.

Term project

None

 

Midterm Exam

4 x 2 = 8

Open/ Closed exam

Final Exam

Exam                  : 2

Individual work    : 8

Open/ Closed exam

Quiz (4 piece)

Individual work    : 8

Open/ Closed exam

Research (internet/library)

 

 

Other(………………………. )

 

 

Total Course Load (Hours)

124

 

 

 

HARRAN UNİVERSITY ENGINEERING FACULTY

MECHANICAL ENGI0NEERING DEPARTMENT

           

Course Name

Code

Semester

T+U

Credit

AKTS

 

Advanced Fluid Mechanics  II

5103204

Spring

3+0

3

5

 

Prerequisite Courses

None

Language of Course

Turkish

Course class

Compulsory

Coordinator of Course

Assist. Prof. Refet KARADAĞ

Instructor

Assist. Prof. Refet KARADAĞ

Course Assistant

-

Objective of course

 Advanced modeling of fluid mechanics problems

 

Course Learning Output

Flow problems in continuity, energy and momentum can be expressed in differential and integral equations.

Ideal flow, viscous flow and non-Newtonian flows to learn.

dimensional analysis can be made.

Understanding Two-phase Flows.

Course Contents

Vector and Tensor Notations, Curve and surface integrals, integral theorems, flow vectors, differential and integral equations of continuity and momentum-energy expression, the ideal flow, Laminar Viscous Flow Analysis, Dimensional Analysis, Non-Newtonian flow, two-phase flows.

 

Weeks

Subjects

1

Vector and Tensor notations

2

Curve and surface integrals

3

Integral theorems and the flow vectors

4

Continuity equation, differential and integral expression of

5

Expression of differential and integral momentum equation

6

Differential and integral expression of the energy equation

7

Ideal Flows

8

MID-TERM EXAM

9

Laminar Viscous Flow Analysis and

10

Analytical Solutions and Viscous Laminar Flows

11

Dimensional Analysis

12

Non-Newtonian flows

13

Two-phase Flows

14

FINAL EXAM

 

General Sufficiency

Knowledge of research techniques, Turkish which oral and written ability for effective communication; Mechanical Engineering in the field of scientific books and publications and to report to follow the level of knowledge of technical English, presentation skills preparation techniques.

 

Textbook/Recommended Reading

1.     Akışkanlar mekaniği temelleri ve uygulamaları- Yunus A. ÇENGEL ve John M.  CIMBALA- Türkçesi Tahsin Engin, Halil Rıdvan Öz, Hasan Küçük, Şevki Çeşmeci- Güven Bilimsel, 2006

2.        [Akışkanlar Mekaniği – Frank M. White – Türkçesi : Kadir Kırkköprü, Erkan Ayder

     Literatür Yayınevi – 2004

3.        Akışkanlar MekaniğiHabip UmurUludağ Üniv. Yayınları – 2001

4.        Akışkanlar MekaniğiMuhittin Soğukoğlu, Birsen Yayın Dağıtım – 1995  

5.        Akışkanlar MekaniğiHaluk ÖrsBoğaziçi Üniv., 1994

6.        Introduction to Fluid Mechanics – Robert W. Fox , Alen T. Mc Donald, 4th      Edition      – John Wiley-Sons - 2001 

7.        Akışkanlar Mekaniği Problemleri, Hasmet Türkoğlu ve Nuri Yücel, Gazi Üniv. –     2002

 

Assessment System

Mid Exam and Task/Project Average of Arithmetical: %40

Final:%60