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Course
Code: : 5103103 Course
Name
: Advanced Engineering
Thermodynamics I Instructor
: Prof. Dr. Bülent YEŞİLATA Theoretical / Practical / Credit : 3 / 0 / 3
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HARRAN UNİVERSITY ENGINEERING FACULTY
MECHANICAL ENGI0NEERING DEPARTMENT
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Course Name |
Code |
Semester |
T+U |
Credit |
AKTS |
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Advanced Engineering Thermodynamics I |
5103103 |
Fall |
3+0 |
3 |
5 |
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Prerequisite Courses |
None |
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Language of Course |
Turkish |
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Course class |
Compulsory |
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Coordinator of Course |
Prof. Dr. Bülent YEŞİLATA |
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Instructor |
Prof. Dr. Bülent YEŞİLATA |
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Course Assistant |
- |
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Objective of course |
1)
Thermal engineering practices with modern techniques and tools necessary for
developing, selecting and using the skills and give the ability to use
information technology effectively 2)
Complex a thermal system, process, device or product, under realistic constraints
and conditions, to meet the specific requirements of teaching students how to
design and develop the ability to practice the methods of modern design for
this purpose. |
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Course Learning Output |
1)
Theoretical and applied knowledge gained in the field of mechanical
engineering, thermodynamic modeling and solving problems for the application
of skills, 2)
Necessary for applications to the field of thermodynamic models, methods and
means of selecting, using and developing skills. 3)
Effectively using IT technologies, ability to follow scientific research in
the field of thermodynamics, the ability to interpret and present. 4)
Thermal engineering problems to identify, formulate, and solve; |
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Course Contents |
Definitions,
of the fluid properties. The first law of thermodynamics,
the principle of Mayer, open changes, current operations. The second
law of thermodynamics, Carnot's principle, entropy. Thermodynamics of pure
substances, properties of pure substances, the thermodynamic functions.
Thermodynamic properties of gases, perfect gases, gas mixtures, real gases.
Gas cycles and processes, combustion, internal combustion thermal equipment.
Steam cycles. Thermodynamic properties of vapors, steam engines, Carnot and Rankine cycles, steam turbines, the turbines
thermodynamic cycles. |
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Weeks |
Plan
of Course at Semester |
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1 |
Basic concepts and definitions |
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2 |
The first law of thermodynamics |
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3 |
First law of thermodynamics of open and closed system app. |
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4 |
Carnot's principle and entropy. |
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5 |
Thermodynamics of pure substances, and properties of pure substances |
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6 |
Thermodynamic functions |
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7 |
Thermodynamic properties of gases, perfect gases, gas mixtures, real gases. |
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8 |
MID-TERM EXAM |
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9 |
Gas cycles and processes, |
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10 |
Internal combustion thermal machines |
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11 |
Steam cycles and thermodynamic properties of steam |
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12 |
Steam turbines and thermodynamic cycles |
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13 |
Examination of a recent scientific article |
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14 |
Homework / project report |
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General Sufficiency |
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The
knowledge of basic thermodynamics, heat transfer and fluid mechanics
principles and terminology. The knowledge of mathematics including multi-variable
differential equations and advanced mathematics. Turkish to communicate
effectively in oral and written. Mechanical Engineering in the field of
scientific books and publications and to report to follow the level of
technical knowledge of English. |
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References |
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1] Thermodynamics-An Engineering Approach, Yunus A. Çengel & Micheal A. Boles; veya, Mühendislik Yaklaşımıyla Termodinamik, Yunus A. Çengel & Micheal A. Boles; Tercüme: Taner Derbentli [2] Thermodynamics, William Z. Black & James G. Hartley [3] Termodinamik I ve II, Prof.Dr. A. Rasim Büyüktür. [4] Mühendislikte Temel Termodinamik, Doç. Dr. Bülent Yeşilata |
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Form of Assessment |
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Mid Exam and Task/Project Average of
Arithmetical: %40 Final:%60 Projects:- Homework:- |