Course
Code : 0502701
Course
Name
: Steam Turbines
Instructor
: Dr. Cuma ÇETİNER
Theoretical/ Practical/Credit
: 3 / 0/ 3
|
Learning Activity |
Estimated Time(Hour) |
Evaluation |
|
Theoretical Course (14 Week) |
3 x 14 = 42 |
Participation to class |
|
Guided Problem Solving |
None |
|
|
Individual Study |
3 x 14 = 42 |
|
|
Weekly homework problems be solved |
1 x 14 = 14 |
Individual or teamwork and
report preparation for homework’s. |
|
Term project |
None |
|
|
Midterm Exams |
4 x 2 = 8 |
Closed Book |
|
Final Exam |
For Exam
: 2 Individual Study: 8 |
Closed Book |
|
Quiz (4 Piece) |
Individual Study: 8 |
Closed Book |
|
Research (internet / library) |
|
|
|
Other (documentary / movie watching) |
|
|
|
Other (conference, panel, etc.. Attend meetings) |
|
|
|
Total Course Load (Hours) |
122 |
|
|
Code and Name of Course |
: |
0502701 Steam Turbines |
|
Type of Course |
: |
Compulsory |
|
Prerequisite/Recommended |
: |
None |
|
Year/Semester of Course |
: |
Fall |
|
Credit of Course |
: |
3 |
|
Coordinate of Course |
: |
Dr. Cuma ÇETİNER |
|
Department |
: |
Mechanical Engineering |
|
Instructor |
: |
Dr. Cuma ÇETİNER |
|
Number of Classroom |
: |
- |
|
Hours of Course |
: |
- |
|
Hours of Meeting |
: |
- |
|
Groups |
: |
- |
|
Objective of the Course |
: |
This course is to teach
produce of steam and get energy from steam turbines, calculation turbine’s
project. |
|
Course Contents |
: |
Basic
information. Steam turbine, gas turbine, open, closed, compound, combines
systems. Thermal coefficient and it’s improve methods. Power powerhouses with
steam turbine. Course of energy, preheaters, open preheated, closed
preheaters. Energy transformation at steam turbine. Counterpart pressure,
reaction turbines, degree of reaction. Calculation environmental power,
calculation of specific work (Euler equation), losses and coefficient at
turbine. Type of turbines, triangle of turbines, powerhouse with fossil fuel. |
|
Textbook/Recommended Reading |
: |
Buhar Türbinleri -Prof.Dr. Suavi
EYİCE Gemi ve Buhar Türbinleri ve
Tesisleri Doç.Dr. Ateş ÖZGE Mühendislik
YaklaşımlaııylaTermodinamik Prof. Dr. Yunus ÇENGEL |
|
Plan of Course at Semester |
1.Week |
Introduction of steam
turbines Using area of steam turbines |
|
2. Week |
Theoretical Rankine cycle Improve of Rankine cycle Reduce to condenser’s
pressure Heat to high temperature Boost to boiler pressure Using Molier’s h-s diagram |
|
|
3. Week |
Foundation of steam turbine Open foundation of steam
turbine Closed foundation of steam
turbine Mixed cycle of steam turbine Problems about Rankine cycle |
|
|
4. Week |
Solution of problems about
Rankine cycle Heating again Take pre-steam Power powerhouse with steam
turbine |
|
|
5. Week |
Action turbines Reaction steam turbine Radial steam turbines Distribution of pressure and
velocity at steam turbines |
|
|
6. Week |
Distribution pressure and
velocity at action turbine Distribution pressure and
velocity at reaction turbine |
|
|
7. Week |
First written midterm exam1. |
|
|
|
8. Week |
Calculations nozzle at steam
turbine Basic nozzle Nozzle with diffuser Size and cross-section of
nozzle |
|
|
9. Week |
Calculation at steam
turbines Steam’s mass flow rate Loss of friction Expend work |
|
|
10.Week |
Velocity triangles at steam
turbines Relative velocity Absolute velocities Entrance triangles |
|
|
11.Week |
Outlet triangles Powers at steam turbines Losses at steam turbines |
|
|
12.Week |
Second written midterm
exam1. |
|
|
13.Week |
Coefficient at turbine Environment’s coefficient Mechanic coefficient Foundation coefficient |
|
|
14.Week |
Problems |
|
Form of Assessment |
One written midterm exam
(40% ); one written final exam (60%) |
|