Course Syllabus
1. Class Information
(1) Class: Design Theories of Ship and Offshore Structure
(2) Class Number: 414.361
(3) Semester: Fall 2021
(4) Level of Course: Undergraduate / Junior
(5) Time: Mon. 14:00-13:15, Wed. 14:00-13:15
(6) Location: Room 204, Bldg. 34
(7) Instructor: Prof. Myung-Il Roh
- Office: Room 414, Bldg. 34
- E-mail: miroh@snu.ac.kr
- Phone: (02) 880-7328
- Office Hours: Available before school and after school by appointment.
(8) Teaching assistants: Dong-Guen Jeong
- E-Mail: jdk3389@snu.ac.kr
- Office: Room 306, Bldg. 34
- Phone: (02) 880-8378
2. Course Topics and Description
This course presents design theories of ship and offshore structure and the optimization technique for design automation of them. As theoretical education, the theories related to hull form design, general arrangement design, structural design, outfit design, and so on are presented, and the practice related to the theories using computer programs are given as the practical education. In addition, the optimization technique for design automation of ship and offshore structure and its applications are presented. Students perform a term project which consists of hull form design, general arrangement design, structural design, outfit design of the given ship or offshore structure.
(1) Design theories of ship and offshore structure: Hull form design (including the generation of hull form, variation and fairing of hull form), general arrangement design (including the design method and related rules, and naval architectural calculation), structural design (including the design method and related rules, midship scantling, evaluation of structural strength), outfitting design (including the design method and understanding of P&ID), and the practice related to the theories using computer programs
(2) Optimization technique for design automation of ship and offshore plant: Introduction to optimum design, Optimization technique, Its applications to design of ship and offshore plant
(3) Term project for design of ship and offshore structure: Students have to work in team, consisting of 2 students, on a term project. The term project is to design a hull form, compartment, hull structure, and outfitting of the given ship or offshore structure. That is, the outcome of the term project will be drawings and 3D CAD model which show results of hull form design, general arrangement design, structural design, and outfitting design. Of course, the scope of term project can be changed.
3. Textbook and References
(1) Textbook
- Roh, Myung-Il, “Design Theories of Ship and Offshore Plant”, Seoul National University, Fall 2021.
(2) References
- Roh, Myung-Il, Lee, Kyu-Yeul, “Computational Ship Design”, Springer, 2018.
- Roh, Myung-Il, “Naval Architectural Calculation”, Seoul National University, Spring 2021.
4. Grade Computation
Weighted system is as follows:
- Two Exams: 60%
- Term Project: 30%
- Attendance: 10%
Incase 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,instructions and notice for supplementary lecture will be made only on the website, so check it frequently.
6. Class Expectation
- 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.
7. Exam
(1) Mid-term Exam
- Date: October 27th, 2021 (Wednesday)
- Time: 18:00~19:15
- Range: Design Theories of Ship and Offshore Plant(Hull Form Design, General Arrangement Design, Structural Design)
(2) Final exam
- Date: December 8th, 2021 (Wednesday)
- Time: 14:00~13:15
- Range: Design Theories of Ship and Offshore Plant(Outfitting Design)
8. Course Schedule
Week | Course Schedule | |||
Monday | Wednesday | |||
Date | Time: 14:00-15:15 | Date | Time: 14:00-15:15 | |
1 | 09/02 | Introduction to Ship Design | 09/04 | Introduction to Offshore Plant Design |
2 | 09/09 | Hull Form Design: Generation of Hull Form | 09/11 | Hull Form Design: Variation of Hull Form |
3 | 09/16 | Hull Form Design: Performance Evaluation of Hull Form | 09/18 | General Arrangement Design: Design Method and Related Rules (1) |
4 | 09/23 | General Arrangement Design: Design Method and Related Rules (2) | 09/25 | General Arrangement Design: Design Method and Related Rules (3) |
5 | 09/30 | General Arrangement Design: Naval Architectural Calculation | 10/02 | Structural Design: Design Method and Related Rules |
6 | 10/07 | Structural Design: Midship Scantling (1) | 10/09 | Holiday |
7 | 10/14 | Structural Design: Midship Scantling (2) | 10/16 | Structural Design: Evaluation of Structural Strength (1) |
8 | 10/21 | Structural Design: Evaluation of Structural Strength (2) | 10/23 | Mid Exam |
9 | 10/28 | Outfitting Design: Design Method and P&ID (1) | 10/30 | Outfitting Design: Design Method and P&ID (2) |
10 | 11/04 | Practice Using Computer Programs (1) | 11/06 | Practice Using Computer Programs (2) |
11 | 11/11 | Introduction to Optimum Design (1) | 11/13 | Introduction to Optimum Design (2) |
12 | 11/18 | Optimization Technique (1) | 11/20 | Optimization Technique (2) |
13 | 11/25 | Optimization Technique (3) | 11/27 | Optimization Technique (4) |
14 | 12/02 | Optimization Technique (5) | 12/04 | Applications of the Optimization Technique to Design of Ship and Offshore Structure (1) |
15 | 12/09 | Applications of the Optimization Technique to Design of Ship and Offshore Structure (2) | 12/11 | Final Exam |