DEGREE PROGRAMMES

: NAVAL ARCHITECTURE

General Description

History

Following the foundation of the Institute of Marine Sciences and Technology in 1975, the Naval Architecture Ph.D. Program has been carrying out research and education activities by focusing on the current research needs of the industry. The program embraces students from a very diverse background and strong collaborations with local to global institutions.

Qualification Awarded

Ph.D. in Naval Architecture

Level of Qualification

Third Cycle (Doctorate Degree)

Specific Admission Requirements

Second Cycle (Master's Degree) diploma; minimum 80/100 or 3/4 Cumulative Grade Point Average, minimum score of 60 from the National Central Graduate Education Entrance Examination (ALES) in the related field; a minimum score of 70 from the graduate school entrance exam; a minimum score of 55 from the nation-wide Foreign Language Exam (YDS) or equivalent score from an exam accredited by YÖK.

Specific Arrangements for Recognition of Prior Learning (Formal, Non-Formal and Informal)

According to the Regulations of Dokuz Eylül University for Graduate Schools, students may be accepted for graduate transfer with the approval of the Department Directorate and decision of the Board of Directors of the Graduate School in case the student fulfills the graduate transfer regulations decided by the General Council of the Graduate School. Previously taken courses at another graduate programme with a successful grade may be recognized by the related programmes with the written request of the students including course contents and the transcript, and by the recommendation of the Department Directorates and by the decision of the Board of Directors. The courses taken by the outgoing Exchange students may have the recognition at the school either as compulsory or elective by the decision of the Board of Directors.

Qualification Requirements and Regulations

4 years, 2 semesters per year, 16 weeks per semester, 240 ECTS in total.

Profile of the Programme

Maritime institutions and organizations that are active in our region, the expertise they need to-date marine technologies, these requirements are increasing day by day, but answering the shortcomings that have the potential dimensions. Yet, DEU Institute of Marine Science and Technology, established since 1975 our country has acquired the seas and international waters, has a technological background. Necessity of presenting this knowledge for the benefit of the maritime industry on the basis of shipbuilding carried out research activities in this program.
Research activities at the beginning of the expected benefits, open new research horizons for particularly including small boating sector and construction and maintenance of the entire ship - repair industry in line with current needs by transferring all of the accumulated experience of the university under the coordination of the ship program.
The program has experience with all the equipment, numerous high quality academic and technical staff, laboratories and workshops, shows efficacy in land and sea vehicles for touring boats, many of the ship from the container ships with the size of fishing vessels until the size of a large oil tanker need for many of the ship basin, including the main machinery.
Ship Construction Program, working in collaboration with prestigious national and international research centers. Some of them are presented below:
* Japan Ministry of Transport and Marine Technology High School, Japan
* Marine Engineering and Ship Technology, Faculty of Technical University of Gdansk, Poland
* Construction Equipment and Technologies Research Institute, Romania
* SARC BV, The Netherlands
* Amarcon, The Netherlands
Research topics:
* Ship construction and form design
* Design of the special ships and systems
* Ship hydrostatics and stability

Key Learning Outcomes

1   Being conscious of the necessity of lifelong learning.
2   Acquire the ability to function on multi-disciplinary team works.
3   To do synthesis and evaluation of technological developments in the field of shipbuilding engineering.
4   To be able to implement a comprehensive study on to make an innovation in science or technology, bring a new scientific method or technological product / process develops into a new field.
5   To contribute to the literature by publishing and providing academic studies in prestigious academic environments.
6   To be able to use skills in the upper level to access to the latest information in the field of naval architecture, comprehension them and to do researchs.
7   To design a research, implement it and write an academic paper based on the research results.
8   To develop a critical stance to the essence of the original and future-oriented research and engineering approaches.
9   To have the notion of design and maritime history, corporate information infrastructure, and an intellectual knowledge.
10   To know the current design approaches, the built-in design and production systems and to have the foresight to propose new ideas and methods in life-long learning process.
11   To be able to have professional and ethical responsibility.
12   To carry out the R & D activities and in this way to have the ability of existing hardware and software development.

Occupational Profiles of Graduates with Examples

Graduates of the program can find employment opportunities at shipyards, boat-building companies, design firms, or as independent designers/surveyors.

Access to Further Studies

May apply to post doctorate programmes.

Course Structure Diagram with Credits

In addition to the compulsory courses of the programme, students register to elective courses appropriate for their thesis topic, on the consent of their supervisor. If necessary, on the consent of their supervisor, they can also register to courses from other programmes (from DEU or other universities). It is obligatory to register MAT5101 Applied Mathematics (3 0 0) or MAT5102 Numerical and Approximate Methods (3 0 0) or MAT5151 Methods of Applied Mathematics (3 0 0) with approval of the supervisor. In the case of one of these courses taken during the M.Sc. education, these are not obligatory. The registration must be noticed to the Institute during course registration period by the supervisor. NAV 5037, NAV 5043, NAV 5030 and NAV 5031 courses are obligatory for students who are not graduates of Naval Architecture.
T: Theoretical P: Practice L: Laboratory
B: Spring Semester G: Fall Semester H: Full Year
 
1 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
G 1 NAV 5049 SHIP HYDROMECHANICS COMPULSORY 3 0 0 8
G 2 NAV 5031 NAVAL ARCHITECTURE COMPULSORY 3 0 0 5
G 0 - ELECTIVE COURSE ELECTIVE - - - 17
TOTAL:   30
 
2 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
B 1 NAV 5030 MARINE ENGINEERING COMPULSORY 3 0 0 9
B 2 NAV 5052 SHIP GEOMETRY COMPULSORY 3 0 0 7
B 3 FBE 6666 PHILOSOPHY OF SCIENCE AND ETHICS COMPULSORY 3 0 0 5
B 4 DEN 6098 PH.D. RESEARCH COMPULSORY 3 0 0 9
TOTAL:   30
 
3 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
G 1 DEN 6094 PH.D. SEMINAR COMPULSORY 0 3 0 5
G 2 DEN 6098 PH.D. RESEARCH COMPULSORY 3 0 0 9
G 0 - ELECTIVE COURSE ELECTIVE - - - 16
TOTAL:   30
 
4 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
B 1 DEN 6099 PH.D. THESIS COMPULSORY 0 0 0 30
TOTAL:   30
 
5 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
G 1 DEN 6099 PH.D. THESIS COMPULSORY 0 0 0 30
TOTAL:   30
 
6 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
B 1 DEN 6099 PH.D. THESIS COMPULSORY 0 0 0 30
TOTAL:   30
 
7 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
G 1 DEN 6099 PH.D. THESIS COMPULSORY 0 0 0 30
TOTAL:   30
 
8 .Semester:
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
B 1 DEN 6099 PH.D. THESIS COMPULSORY 0 0 0 30
TOTAL:   30
 
FLEXIBLE ELECTIVE COURSE ACCORDING TO ECTS
Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS
Z 1 NAV 5021 ENGINEERING ECONOMICS FOR SHIP DESIGN AND SHIPPING ELECTIVE 2 0 0 8
Z 2 MAT 5101 APPLIED MATHEMATICS ELECTIVE 3 0 0 9
Z 3 NAV 5055 ADDITIVE MANUFACTURING IN SMALL CRAFT TECHNOLOGY ELECTIVE 3 0 0 7
Z 4 NAV 5033 YACHT DESIGN ELECTIVE 2 0 0 7
Z 5 NAV 5053 SPECIAL DESIGN TOPICS IN SMALL CRAFT ELECTIVE 3 0 0 8
Z 6 NAV 5051 INTERIOR DESIGN MATERIALS OF YACHTS AND THEIR MANUFACTURE ELECTIVE 3 0 0 7
Z 7 NAV 5015 SHIPBUILDING AND REPAIR OPERATIONS ELECTIVE 2 0 0 6
Z 8 NAV 5047 REMOTE SENSING APPLICATIONS FOR MARINE SCIENCES AND TECHNOLOGY ELECTIVE 3 0 0 7
Z 9 NAV 5023 COMPUTER AIDED OPTIMIZATION FOR DESIGN OF MARINE COMPOSITES ELECTIVE 2 0 0 7
Z 10 NAV 5045 COMPOSITES IN MARINE USE ELECTIVE 2 0 0 6
Z 11 MAT 5083 INTRODUCTION TO APPLIED MATHEMATICS ELECTIVE 3 0 0 9
Z 12 MAT 5151 METHODS OF APPLIED MATHEMATICS ELECTIVE 3 0 0 9
Z 13 NAV 5009 WAVE MECHANICS ELECTIVE 3 0 0 8
Z 14 NAV 5041 POWER TAKE-OFF SYSTEM TECHNOLOGIES IN MARITIME RENEWABLE ENERGY SOURCES ELECTIVE 3 0 0 7
Z 15 NAV 5035 FRACTURE MECHANICS OF MARINE COMPOSITES ELECTIVE 2 0 0 7
Z 16 NAV 5058 RECREATIONAL CRAFT DIRECTIVE COMPLIANCE AND ITS APPLICATION ELECTIVE 3 0 0 8
Z 17 NAV 5056 DESIGN OF SAILING BOATS ELECTIVE 3 0 0 7
Z 18 NAV 5054 DESIGN AND MANUFACTURE OF UNMANNED MARINE VEHICLES ELECTIVE 3 0 0 8
Z 19 NAV 5050 GEMI HIDRODINAMIğI ELECTIVE 3 0 0 8
Z 20 NAV 5046 PREVENTION OF SHIP-BORNE POLLUTION ELECTIVE 2 0 0 7
Z 21 MAT 5102 NUMERICAL AND APPROXIMATE METHODS ELECTIVE 3 0 0 9
Z 22 NAV 5040 STRUCTURAL DESIGN OF SMALL CRAFT ELECTIVE 2 0 0 7
Z 23 NAV 5038 COMPUTER AIDED SHIP DESIGN ELECTIVE 2 0 0 7
Z 24 NAV 5028 SHIPS THERMAL CONFORT ELECTIVE 2 0 0 7
Z 25 NAV 5008 ADVANCED WELDING APPLICATIONS IN SHIPS ELECTIVE 2 0 0 8
Z 26 NAV 5006 AUTOMATIC CONTROLS IN SHIPS ELECTIVE 2 0 0 8
Z 27 NAV 5060 HISTORY OF SHIPS AND SEAFARING ELECTIVE 3 0 0 7
Z 28 NAV 5002 THE HYDRODYNAMICS OF SHIP PROPELLERS ELECTIVE 2 0 0 9
Z 29 NAV 5004 DESIGN OF FISHING VESSELS ELECTIVE 2 0 0 9
 

Examination Regulations, Assessment and Grading

Related items of Dokuz Eylül University Regulations of Graduate Education and Exams and related items of Institute of Natural and Applied Sciences Regulations of Education and Code of Practicing Exams are applied for the exams and course grades.
The course evaluation criteria are defined for each course by the instructor(s) of the corresponding course and are given in the Course Description Form found in the information package.

Graduation Requirements

Third Cycle (Doctor of Philosophy) Programme is comprised of courses (at least 67 ECTS),Ph.D.Seminar (5 ECTS), Ph. D. Research (18 ECTS) / Ph. D. Thesis (150 ECTS) courses, thesis proposal, doctoral qualifying examination and thesis examination with a total credit of 240 ECTS. Students must have minimum Cumulative Grade Point Average (CGPA) of 2.50 / 4.00 and completed all the courses with at least CB / S / TP grades.

Mode of Study (Full-Time, Part-Time, E-Learning )

Full-time

Programme Director or Equivalent

Prof. Dr. Şermin AÇIKÇINAR
Bakü Bul. No:100 35430 İnciraltı-İzmir
Tel: (232) 278 5565 / 5272 / 6515 / 6525 / 5085 / 5083
Faks: (232) 278 5082
E-Posta: imst@deu.edu.tr