COURSE INFORMATON | |||||
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Course Title | Code | Semester | L+P Hour | Credits | ECTS |
Fluid Mechanics II * | IMZ 306 | 6 | 3 | 3 | 5 |
Prerequisites and co-requisites | Yok |
Recommended Optional Programme Components | None |
Language of Instruction | Turkish ![]() |
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Course Level | First Cycle Programmes (Bachelor's Degree) | ||||||
Course Type | |||||||
Course Coordinator | |||||||
Instructors |
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Assistants | |||||||
Goals | To teach how to apply the basic equations of flow in pipes and open channels |
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Content | Real fluid flow, Laminar and turbulent flows, Boundary layer flow, Forces on submerged bodies, Steady flow in pipes, Energy losses in pipe flow, Pipelines containing pump and turbine, Hydraulic analysis of pipe networks, Unsteady flows in pipe, Analysis of surge chamber and water hammer, Steady open channel flow, Uniform flow, Best hydraulic section, Specific energy, Critical depth, Specific force, Analysis of hydraulic jump, Gradually varied flows, Dimensional analysis and hydraulic similarity. |
Learning Outcomes |
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Course's Contribution To Program | |||||||
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No | Program Learning Outcomes | Contribution | |||||
1 | 2 | 3 | 4 | 5 | |||
1 | Has the basic knowledge of math, science and civil engineering |
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2 | Has a good commman of basic concepts, theories and principles in civil engineering. |
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3 | Independently reviews and learns the applications, makes a critical assessment of the problems faced with, selects the proper technique to formulate problems and propose solutions |
X | |||||
4 | Designs a system, a component or a process in order to meet the needs of various engineering problems within technical, economic, environmental, manufacturability, sustainability limitations. |
X | |||||
5 | Selects and uses the modern techniques and tools necessary for engineering practice |
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6 | Designs and carries out experiments in the fields of civil engineering, and interprets the results and the data obtained from the experiments |
X | |||||
7 | Gains the abiltiy to work effectively as a member in interdisciplinary teams |
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8 | Identifies proper sources of information and databases, reaches them and uses them efficiently. |
X | |||||
9 | Follows the advancements in science and technology being aware of the necessity of lifelong learning and continuously improves her/himself. |
X | |||||
10 | Uses the computers and information technologies related with civil engineering actively. |
X | |||||
11 | Gains the ability to communicate effectively both orally and in writing. |
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12 | Communicates using technical drawing |
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13 | Constantly improves her/himself by identifying the training needs in scientific, cultural, artistic and social fields. |
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14 | Continuously improves her/himself by defining necessities in learning in scientific, social, cultural and artistic areas besides the occupational requirements. |
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15 | Has an understanding of entrepreneurship and innovation subjects, and is knowledgeable of contemporary issues. |
X | |||||
16 | Has an awareness of professional and ethical responsibility |
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17 | Has the required knowledge in project management, workplace practices, employee health, environmental and occupational safety; and the legal implications of engineering applications. |
Course Content | |||
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Week | Topics | Study Materials | _ocw_rs_drs_yontem |
1 | Real fluid flow; definition of laminar and turbulent flows | None | |
2 | Bondary layer flow, Dynamic forces on submerged bodies, Secondary flow | Revision of previous lecture | |
3 | Steady flow in pipes, Velocity distributions and energy losses | Revision of previous lecture | |
4 | Local energy losses in pipe flow, Pipelines containing pump and turbine | Revision of previous lecture | |
5 | Pipeline problems | Revision of previous lecture | |
6 | Hydrualic analysis of pipe networks | Revision of previous lecture | |
7 | Midterm exam | ||
8 | Mid-Term Exam | ||
9 | Analysis of water hammer | Revision of previous lecture | |
10 | Steady open channel flow, Basic information, Analysis of uniform flow | Revision of previous lecture | |
11 | Best hydraulic section in open channel, Specific energy | Revision of previous lecture | |
12 | Critical depth, Transition through critical depth, Specific force, Analysis of hydraulic jump | Revision of previous lecture | |
13 | Wave propagation in channels, Gradually varied flows | Revision of previous lecture | |
14 | Analysis of gradually varied flows | Revision of previous lecture | |
15 | Dimensional analysis and hydraulic similarity | Revision of previous lecture | |
16-17 | Term Exams |
Recommended or Required Reading | |
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Textbook | |
Additional Resources | Streeter, V.L., Wylie, E.B., FLUID MECHANICS, McGraw-Hill Kırkgöz, M.S., AKIŞKANLAR MEKANİĞİ, Kare Yayınları Sümer, B.M., Ünsal, İ., Bayazıt, M., HİDROLİK, Birsen Yayınevi |