Course Syllabus
1. Class Information
(1) Class Title: Naval Architectural Calculation
(2) Class Number: 414.261 (3 Credits)
(3) Semester: Spring, 2016
(4) Level of Course: Undergraduate / Sophomore
(5) Class Time: Tue. 11:00-12:15, Thu. 11:00-12:15
(6) Location: Room 211, Bldg. 36
(7) Instructor: Prof. Myung-Il Roh
- Office: Room 308D, Bldg. 36
- E-mail: miroh@snu.ac.kr
- Phone: (02)-880-7328
- Office Hours: Available before school and after school by appointment.
(8) Teaching assistants: Ju-Sung Kim, Seung-Ho Ham
- E-Mail: wntjd112@snu.ac.kr, hsh0930@snu.ac.kr
- Office: Room 206, Bldg. 36
- Phone: (02)-880-8378
(9) Language of Instruction: English
※ Announcement: Please note that all lectures, assignments, exams, and term projects for this course are in English.
2. Course Topics and Description
The course deals with ‘Ship Stability’ in ocean environment
1) Based on the fluid mechanics, position, and orientation of a ship in calm water such as immersion, heel, and trim are introduced.
2) Then the students learn how to evaluate the required intact and damage stability of IMO regulations.
3) Also students have to work in team, consisting of 2 students, on a term project to calculate the hydrostatic values of a floating body, such as its volume and water plane area.
Term Project
- Development of a program for generating hydrostatic tables and plotting hydrostatic curves after calculating hydrostatic values for the given offsets table of a ship or an offshore plant
3. Textbook and Reference
(1) Textbook
- Roh, Myung-Il, Ship Stability, Lecture Note for Naval Architectural Calculation, Seoul National University, Spring, 2016
(2) Reference
- 대한조선학회, “선박계산”, 텍스트북스, 2012.11.
- Roh, Myung-Il, Lecture Note for “Innovative Ship and Offshore Plant Design”, Seoul National University, Spring, 2016
- Letcher, John S., “The Principles of Naval Architecture: The Geometry of Ships”, SNAME, 2009
- Moore, Colin S., “The Principles of Naval Architecture: Intact Stability”, SNAME, 2010
4. Grade Computation
Weighted system is as follows:
- Two Exams: 60%
- Term Project: 30%
- Attendance: 10%
In case of an excused absence, the student must make-up any missed test, quiz or homework the following day during a free period, before or after school. Unexcused absences will result in a zero.
5. Website: http://etl.snu.ac.kr
Most assignments and instructions will be made only on the website, so check it frequently.
6. Class Expectation
- All lectures, assignments, exams and term projects for this course are presented in English.
- Late work will be not accepted.
- Show respect to others and their property.
- Come prepared to class.
- It is required to make appointments to see instructor during office hours. Send email for an appointment at least one day in advance.
- No cell phone on the desk.
7. Exam Schedule
(1) Mid-term Exam
- Date: April 21st, 2016 (Thursday)
- Time: 11:00~12:15
- Range:
Restoring force and moment
Hydrostatic pressure, and buoyant force on a floating body
Transverse stability due to cargo movement
Initial transverse stability
Initial longitudinal stability
Free surface effect
Inclining test
Curves of stability and stability criteria
(2) Final Exam (30%)
- Date: June 9th, 2016 (Thursday)
- Time: 11:00~12:15
- Range:
Numerical integration method in naval architecture
Hydrostatic values and curves
Static equilibrium state after flooding due to damage
Deterministic damage stability
Probabilistic damage stability
8. Course Schedule
Week |
Regular Lecture |
Term Project |
|||
Tuesday |
Thursday |
||||
Date |
Time : 11:00-12:15 |
Date |
Time : 14:00-15:15 |
||
1 |
03/01 |
- |
03/03 |
Introduction to Ship Stability, Restoring Force and Moment |
Programming Assignments: According to the Notice |
2 |
03/08 |
Hydrostatic Pressure, and Buoyant Force on a Floating Body (1) |
03/10 |
Hydrostatic Pressure, and Buoyant Force on a Floating Body (2) |
|
3 |
03/15 |
Transverse Stability Due to Cargo Movement (1) |
03/17 |
Transverse Stability Due to Cargo Movement (2) |
|
4 |
03/22 |
Transverse Stability Due to Cargo Movement (3) |
03/24 |
Initial Transverse Stability (1) |
|
5 |
03/29 |
Initial Transverse Stability (2) |
03/31 |
Initial Longitudinal Stability (1) |
|
6 |
04/05 |
Holiday |
04/07 |
Initial Longitudinal Stability (2) |
|
7 |
04/12 |
Free Surface Effect, Inclining Test |
04/14 |
Curves of Stability and Stability Criteria (1) |
|
8 |
04/19 |
Curves of Stability and Stability Criteria (2) |
04/21 |
Mid-term Exam |
|
9 |
04/26 |
Numerical Integration Method in Naval Architecture (1) |
04/28 |
Numerical Integration Method in Naval Architecture (2) |
Term Project - Due date: May, 29(Sun), 23:00 |
10 |
05/03 |
Hydrostatic Values and Curves (1) |
05/05 |
Holiday |
|
11 |
05/10 |
Hydrostatic Values and Curves (2) |
05/12 |
Static Equilibrium State after Flooding Due to Damage |
|
12 |
05/17 |
Deterministic Damage Stability (1) |
05/19 |
Deterministic Damage Stability (2) |
|
13 |
05/24 |
Deterministic Damage Stability (3) |
05/26 |
Probabilistic Damage Stability (1) |
|
14 |
05/31 |
Probabilistic Damage Stability (2) |
06/02 |
Probabilistic Damage Stability (3) |
|
15 |
06/07 |
Probabilistic Damage Stability (4) |
06/09 |
Final Exam |