|
MM 306 | Fluid Mechanics - II | 3+0+0 | ECTS:5 | Year / Semester | Spring Semester | Level of Course | First Cycle | Status | Compulsory | Department | DEPARTMENT of MECHANICAL ENGINEERING | Prerequisites and co-requisites | None | Mode of Delivery | Face to face | Contact Hours | 14 weeks - 3 hours of lectures per week | Lecturer | Prof. Dr. Mustafa SARIOĞLU | Co-Lecturer | ASSOC. PROF. DR. MUSTAFA SARIOĞLU,PROF. DR. BURHAN ÇUHADAROĞLU, | Language of instruction | Turkish | Professional practise ( internship ) | None | | The aim of the course: | Besides covering the basic principles and equations the main objective of the course is to present various real world engineering examples to give students a feel for how fluid mechanics is applied in engineering practice |
Learning Outcomes | CTPO | TOA | Upon successful completion of the course, the students will be able to : | | | LO - 1 : | have an intuitive understanding of various physical phenomena such as drag, friction and pressure drag, drag reduction, and lift; understand the fundamentals of flow over airfoils, and calculate the drag and lift forces acting on airfoils. | 1,2,3 | 1 | LO - 2 : | appreciate why inviscid flow and irrotational flow approximations are necessary to solve many fluid flow problems, and know when and where such approximations are appropriate. | 1,2,3 | 1 | LO - 3 : | learn the consequences of compressibility in gas flow, predict the occurrence of shocks and calculate property changes across a shock wave, understand the effects of friction and heat transfer on compressible flow. | 1,2,3 | 1 | LO - 4 : | understand how flow in open channels differs from pressurized flow in pipes and learn the different flow regimes in open channels and their characteristics | 1,2,3 | 1 | LO - 5 : | identify various types of pumps and turbines, and understand how they work. | 1,2,3 | 1 | LO - 6 : | earn how to generate a grid, how to specify boundary conditions, and how to determine if the computer output is meaningful | 1,2,3 | 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 | |
Flow past immersed bodies. Potential flow. Compressible flow. Open-channel flow. Turbomachinery. Introduction to computational fluid dynamics. |
|
Course Syllabus | Week | Subject | Related Notes / Files | Week 1 | Flow past immersed bodies; the boundary-layer equations | | Week 2 | Flow past immersed bodies; experimental external flows | | Week 3 | Potential flow; some plane potential flows, sample problems | | Week 4 | Potential flow; superposition of plane potetial flows | | Week 5 | Potential flow; airfoil theory,sample problems | | Week 6 | Compressible flow; isentropic flow, normal shock waves | | Week 7 | Compressible flow; frictionless duct flow with heat transfer, adiabatic channel flow with friction, sample problems | | Week 8 | Open -channel flow | | Week 9 | Mid-term exam | | Week 10 | Open-channel flow | | Week 11 | Turbomachinery | | Week 12 | Turbomachinery | | Week 13 | 2. Mid-term exam | | Week 14 | Introduction to Computational Fluid Dynamics (CFD) | | Week 15 | Introduction to Computational Fluid Dynamics (CFD) | | Week 16 | End-of-term exam | | |
1 | White, F. M. 1999; Akışkanlar Mekaniği, Literatür, İstanbul. | | |
1 | Çengel, Y. A., and Cimbala, J. M. 2007, Akışkanlar Mekaniği: Temelleri ve Uygulamaları, Güven Bilimsel, İzmir. | | |
Method of Assessment | Type of assessment | Week No | Date | Duration (hours) | Weight (%) | Mid-term exam | 9 | 07/04/2020 | 1,5 | 50 | End-of-term exam | 18 | 11/06/2020 | 1,5 | 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 | 4 | 13 | 52 | Sınıf dışı çalışma | 3 | 13 | 39 | Arasınav için hazırlık | 11 | 1 | 11 | Arasınav | 2 | 1 | 2 | Dönem sonu sınavı için hazırlık | 16 | 1 | 16 | Dönem sonu sınavı | 2 | 1 | 2 | Total work load | | | 122 |
|