Course Code
: 0502803
Course Name
: Gas Turbines
Instructor : Dr İsmail HİLALİ
Theoretical/ Practical/Credit
: 2 / 0/ 2
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Learning Activity |
Estimated Time(Hour) |
Evaluation |
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Theoretical Course (14 Week) |
2 x 14 = 28 |
Participation to class |
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Guided Problem Solving |
None |
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Individual Study |
2 x 14 = 28 |
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Weekly homework problems be solved |
1 x 14 = 14 |
Individual or teamwork and
report preparation for homework’s. |
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Term project |
None |
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Midterm Exams |
4 x 2 = 8 |
Closed Book |
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Final Exam |
For Exam
: 2 Individual Study: 8 |
Closed Book |
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Quiz (4 Piece) |
Individual Study: 8 |
Closed Book |
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Research (internet / library) |
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Other (documentary / movie watching) |
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Other (conference, panel, etc.. Attend meetings) |
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Total Course Load (Hours) |
96 |
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Code of course & Name |
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0502803 Gas
Turbines |
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Type of Course |
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Compulsory |
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Prerequisite/Recommended
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Recommend take Thermodynamic
I - II and Fluid Mechanic I – II course. |
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Semester |
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Spring |
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Credit |
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2+0+2 |
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Coordinate of course |
: |
Dr İsmail HİLALİ |
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Division/Department/Program |
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Mechanical Engineering |
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Instructor |
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Dr İsmail HİLALİ |
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Room/Number classroom |
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MM2 |
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Time of course |
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Monday (10-12) |
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Meeting time |
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Monday (09-10) |
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Groups |
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One group |
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Objective of the Course |
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Learn gas
turbine analysis and applications |
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Course Contents |
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Introduction to gas turbines: Introduction to gas
turbines and gas turbine motor, introduction to thermodynamic gas
turbine, theoretic gas cycle and simple gas turbine foundation, ideal
gas cycle and simple Brayton cycle, regenerator Brayton cycle, intermediate
to cooling and heating Brayton cycle, study of partial load to gas turbine
foundation and element of turbine. Thermodynamics of airplane turbine and its
problems: analysis of jet/airplane motor, thermodynamics to high
velocity fluid, analysis of ideal turbo jet cycle, turbo-prop motor,
turbo-fan motor |
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Textbook/Recommended Reading |
: |
1.
Türbin Motorların
Aerotermodinamiği ve Mekaniği: Esalar ve Uygulamalar, Doç. Dr. Albay Eyüp
Öztürk, Birsen Yayınevi-1997 2.
Türbomakinalarda Akış: Türbomakinaların
Termodinamiği ve Akışkanlar Mekaniği, 3.
Mühendislik
Yaklaşımıyla Termodinamik, Yunus A. Çengel & Micheal A. Boles; Tercüme:
Taner Derbentli 4.
Akışkanlar Mekaniği – Frank
M. White – Türkçesi : Kadir Kırkköprü, Erkan Ayder, Literatür Yayınevi – 2004
Link of
Univercities Lehigh
Mechanical Engineering http://www3.lehigh.edu/engineering/meche/ MIT Mechanical
Engineering Purdue
Mechanical Engineering http://me.www.ecn.purdue.edu/ME/ Stanford
Mechanical Engineering |
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Semester Teaching Plan |
Week |
Subject |
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1 |
Introduction to
gas turbines and gas turbine motor |
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2 |
introduction to
thermodynamic gas turbine |
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3 |
ideal gas cycle and simple Brayton cycle |
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4 |
Regenerative
Brayton cycle |
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5 |
intermediate to
cooling and heating Brayton cycle, |
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6 |
Midterm exam |
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7 |
intermediate to
cooling and heating Brayton cycle |
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8 |
Gas turbine
cycle for jet/airplane motor |
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9 |
analysis of
jet/airplane motor |
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10 |
thermodynamics
to high velocity fluid |
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11 |
Analysis of ideal turbo-jet
cycle |
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12 |
Analysis of ideal turbo-jet
cycle |
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13 |
Turbo-prop motor |
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14 |
Turbo-fan motor |
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Form of Assessment |
One written midterm exam
(40% ); one written final exam (60%) |
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