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Course Information

Course Name
Turkish Akışkanlar Mekaniği
English Fluid Mechanics
Course Code
AKM 205 Credit Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester 4
4 3 2 -
Course Language Turkish
Course Coordinator Melike Nikbay
Course Objectives 1. To introduce the basic principles of fluid mechanics
2.To be able to define, formulate and simplify the equations of fluid flow and gain ability to use them for the solution of fluid flow problems
Course Description Basic concepts and definitions. Fluid kinematics. Fluid statics. Manometers and pressure
measurements. Hydrostatic forces on immersed bodies. Solid body translation and rotation.
Equations of conservation of mass, momentum and energy for systems and control volumes
Bernoulli equation and applications.. Navier-Stokes equations and its applications. Stream
function and flow potential. Dimensional analysis and similarity. Viscous Flow in pipes and
ducts. Laminar and turbulent boundary layers. Major and minor losses in pipes. Flow over
immersed bodies. Boundary layer equations. Compressible flow. Fluid Machinery. Waterhammer.
Course Outcomes 1. A knowledge of fluid concept, and similarities and differences between fluids and gases,
Ability to solve problems involving viscosity, surface tension, water vapor.
2. To be able to calculate hydrostatic forces, moments and point of action on submergedsurfaces
3.To be able to classify flows as uniform/nonuniform, steady/unsteady,
compressible/incompressible, laminar/turbulent, 1D/2D/3D,
4. Calculate mass flow rate, volumetric flow rate and mean velocity in a flow.
5. Learn pressure, velocity and mass flow rate measurement techniques
6. Use control volume concept and Reynolds transport theorem to calculate fluid forces and
moments acting on static or moving vanes, nozzles, bends, rotating systems,
7. Apply dimensional analysis, similarity and modeling laws to fluid flow problems
8. Make calculations and use moody diagram to determine the local losses and resistance to flow
in pipe systems
9. Knowledge of lift and drag concepts over immersed bodies and their simple calculations
10. Knowledge of properties of compressible flow
11. Knowledge of water hammer
12. Knowledge of pump and turbine characteristics; ability to choose the right pump or turbine
for a given flow system.
Pre-requisite(s) MAT102 or MAT102E or MAT104E Minimum DD
Required Facilities
Other
Textbook B.R. Munson, D.F. Young and T. H. Okiishi, W.W. Huebsch “Fundamentals of Fluid Mechanics”, 6. Basım, J. Wiley and Sons, NewYork, 2010
Other References -F. M. White, “Fluid Mechanics”, 5th Edition, McGraw Hill, 2005 (F. M. White, “Fluid Mechanics”, 4th Edition, McGraw Hill, 1999, Türkçe çevirisi, Kadir Kırkköprü, Erkan Ayder, Literatur Kitabevi, 2004)
-R.W. Fox, A.T. McDonald, “Introduction to Fluid Mechanics”, 4. Basım, SI sürümü
-V.L. Streeter, E.B. Wylie, “Fluid Mechanics”, Mc Graw Hill, 1983.
-J.H. Shames, “Mechanics of Fluids”, Mc Graw Hill, 1992.
-E.B. Wylie, “Fluid Mechanics”, Mac Graw Hill, 1983
-Çengel, Y., Cimbala, C, “Fluid Mechanics”, 1st Edition, Mac Graw Hill, 2007, Türkçe Çevirisi, Ed. Tahsin Engin, Güven Kitabevi, 2008
 
 
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