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MINE2007 | Fluid Mechanics | 2+0+0 | ECTS:3 | Year / Semester | Fall Semester | Level of Course | First Cycle | Status | Compulsory | Department | DEPARTMENT of MINING ENGINEERING | Prerequisites and co-requisites | None | Mode of Delivery | Face to face | Contact Hours | 14 weeks - 2 hours of lectures per week | Lecturer | Doç. Dr. Burak MARKAL | Co-Lecturer | | Language of instruction | | Professional practise ( internship ) | None | | The aim of the course: | To provide an introduction to the basic concepts and procedures used to analyze static and dynamic fluid systems and to develop the design/performance characteristics of viscous fluid flow systems. |
Learning Outcomes | CTPO | TOA | Upon successful completion of the course, the students will be able to : | | | LO - 1 : | use SI unit system | 2,3 | 1, | LO - 2 : | know the properties of fluid and explain the distinction between Newtonian and non-Newtonian behavior | 2,3 | 1, | LO - 3 : | evaluate the hydrostatic pressure distribution and force on plane and curved surfaces | 2,3 | 1, | LO - 4 : | develop and apply appropriate forms of integral mass and momentum balances to various flow situations | 2,3 | 1, | LO - 5 : | explain the difference between laminar and turbulent pipe flow | 2,3 | 1, | LO - 6 : | calculate flow characteristics and pressure drop for viscous internal flow including fluid metering | 2,3 | 1, | CTPO : Contribution to programme outcomes, TOA :Type of assessment (1: written exam, 2: Oral exam, 3: Homework assignment, 4: Laboratory exercise/exam, 5: Seminar / presentation, 6: Term paper), LO : Learning Outcome | |
The concept of a fluid, thermodynamic properties of fluids. Pressure distribution in a fluid. Integral relations for a control volume. Differential relations for a fluid particle. Dimensional analysis and similarity. Viscous flow in ducts. |
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Course Syllabus | Week | Subject | Related Notes / Files | Week 1 | Historical development of fluid mechanics and its appplication ares, The concept of a fluid, The fluid as a continuum, Dimensions and units, Properties of the velocity field | | Week 2 | Thermodynamic properties of a fluid, Basic flow analysis techniques, Flow patterns | | Week 3 | Pressure and pressure gradient, Hydrostatic pressure distributions, Hydrostatic forces on plane surfaces | | Week 4 | Hydrostatic forces on curved surfaces, Hydrostatic forces in layered fluids, Buoyancy and stability, | | Week 5 | Basic physical laws of fluid mechanic, The Reynols transport theorem, | | Week 6 | Conservation of mass | | Week 7 | The linear momentum equation | | Week 8 | The energy equation | | Week 9 | Mid-term exam | | Week 10 | Frictionless flow: The Bernoulli equation | | Week 11 | Reynolds number regimes, Internal and external flows | | Week 12 | Flow in a circular pipe | | Week 13 | Three types of pipe flow problems | | Week 14 | Minor losses in pipe systems | | Week 15 | Multiple pipe systems, Flow in noncircular ducts | | |
1 | White, F. M., 2006; Fluid Mechanics, 5. edition, McGraw-Hill | | |
1 | Çengel, Y. A., and Cimbala, J. M., 2009; Fluid Mechanics: Fundamentals and Applications, McGraw-Hill | | |
Method of Assessment | Type of assessment | Week No | Date | Duration (hours) | Weight (%) | Mid-term exam | 9 | 22/11/2018 | 2 | 50 | End-of-term exam | 17 | 11/01/2019 | 2 | 50 | |
Student Work Load and its Distribution | Type of work | Duration (hours pw) | No of weeks / Number of activity | Hours in total per term | Yüz yüze eğitim | 2 | 14 | 28 | Sınıf dışı çalışma | 2 | 14 | 28 | Arasınav için hazırlık | 6 | 1 | 6 | Arasınav | 2 | 1 | 2 | Dönem sonu sınavı için hazırlık | 9 | 1 | 9 | Dönem sonu sınavı | 2 | 1 | 2 | Total work load | | | 75 |
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