COURSE UNIT TITLE

: POWER TAKE-OFF SYSTEM TECHNOLOGIES IN MARITIME RENEWABLE ENERGY SOURCES

Description of Individual Course Units

Course Unit Code Course Unit Title Type Of Course D U L ECTS
NAV 5041 POWER TAKE-OFF SYSTEM TECHNOLOGIES IN MARITIME RENEWABLE ENERGY SOURCES ELECTIVE 3 0 0 7

Offered By

Graduate School of Natural and Applied Sciences

Level of Course Unit

Second Cycle Programmes (Master's Degree)

Course Coordinator

PROFESSOR DOCTOR KADRI TURGUT GÜRSEL

Offered to

NAVAL ARCHITECTURE
NAVAL ARCHITECTURE

Course Objective

The objectives of the lecture are to teach to students the topics and their applications, occurring problems and their solutions of Power Take-off Systems in Maritime Renewable Energy Source- as general engineering characteristics and loads of wind, basic structure and design futures of onshore and offshore wind turbines; the basic kinematics, kinetics and formation mechanisms of waves; classification of the wave energy converters concerning mechanism techniques and power take-off systems and their combination possibilities with onshore and offshore wind turbines; their basic structure and design characteristics; analysis of WECs of the Type 1,2 and 3 regarding power take-off and transmission systems as well thermodynamics; classification and analysis of the stream, tidal stream and osmosis energy converters concerning their mechanism techniques and power take-off as well transmission systems; their basic structures and design futures, selection of materials in production,which students use frequently both during their study as well as during their profession. In lectures, different kinds of constructions and power take off systems of WECs are investigated and modeled in order that students understand subjects and apply his knowledge rapidly.

Learning Outcomes of the Course Unit

1   To be able to know general wind characteristics and to compute wind loads.
2   To acquire basic knowledge concerning the basic structure and design futures of onshore and offshore wind turbines.
3   To be able to know the basic kinematics, kinetics and formation mechanisms of waves.
4   To be able to acquire general knowledge regarding the basic structure and design characteristics of the wave energy converters (WECs) and to basically classify and to combine them with onshore and offshore wind turbines concerning mechanism techniques and power take-off systems.
5   To be able to elaborately know power take-off and transmission systems of the WECs of the Type 1 and Pelton turbine (high and medium head turbine)].
6   To be able to aquire detailed knowledge regarding power take-off / transmission systems of the WECs of the Type 2 and Kaplan as well Francis turbine (low head turbine).
7   To be able to elaborately know power take-off / transmission systems of the WECs of the Type 3 and Wells, Denniss-Auld and impulse turbine as well HydroAir-Turbine (Variable Radius Turbine).
8   To be able to acquire basic knowledge concerning the basic structures and design futures of the stream, tidal stream and osmosis energy converters and to elaborately know their power take-off and transmission systems.

Mode of Delivery

Face -to- Face

Prerequisites and Co-requisites

None

Recomended Optional Programme Components

None

Course Contents

Week Subject Description
1 - Basic concepts, definition and literature survey- General engineering characteristics and loads of wind,
2 -General engineering characteristics and loads of wind,-Basic structure and design futures of onshore and offshore wind turbines.-Application
3 -The basic kinematics, kinetics and formation mechanisms of waves.-Applications
4 - Classification of the wave energy converters concerning mechanism techniques and power take-off systems and their combination possibilities with onshore and offshore wind turbines.-The basic structure and design characteristics of the wave energy converters and selection of materials in production-Applications
5 - Classification of the wave energy converters concerning mechanism techniques and power take-off systems and their combination possibilities with onshore and offshore wind turbines.-The basic structure and design characteristics of the wave energy converters and selection of materials in production-Applications
6 - Analysis of WECs of the Type 1 regarding power take-off and transmission systems as well thermodynamics [Pelton turbine (high and medium head turbine)].-Applications
7 - Analysis of WECs of the Type 1 regarding power take-off and transmission systems as well thermodynamics [Pelton turbine (high and medium head turbine)].-Applications
8 - Analysis of WECs of the Type 2 regarding power take-off and transmission systems as well thermodynamics [Kaplan and Francis türbine (low head turbine)]-Applications
9 MIDTERM EXAMINATION
10 - Analysis of WECs of the Type 2 regarding power take-off and transmission systems as well thermodynamics [Kaplan and Francis türbine (low head turbine)]-Applications
11 - Analysis of WECs of the Type 3 regarding power take-off and transmission systems as well thermodynamics [Wells, Denniss-Auld and impulse turbine as well HydroAir-Türbine (Variable Radius Turbine)]-Applications
12 -Analysis of WECs of the Type 3 regarding power take-off and transmission systems as well thermodynamics [Wells, Denniss-Auld and impulse turbine as well HydroAir-Türbine (Variable Radius Turbine)]-Applications
13 - Classification of the stream, tidal stream and osmosis energy converters concerning their mechanism techniques and power take-off as well transmission systems; their basic structures and design futures, selection of materials in production-Applications
14 - Analysis of the stream, tidal stream and osmosis energy converters concerning power take-off and transmission systems as well thermodynamics.-Applications

Recomended or Required Reading

1.Lecturer's notes.
2.Haddara, M.R., Soares, C.G. "Wind loads on marine structures", Marine Structures 12 (1999) 199-209.
3.Vinning, J.: "Ocean Wave Energy Conversion" Dec. 2005, University of Wisconsin.
4.. Graw, K.-U.: Wellenenergie -Eine hydromechanische Analyse, Institut für Grundbau, Abfall- und Wasserwesen, Bergische Universität - Gesamthochschule Wuppertal, ISSN 0179-9444, 1995.
5.Özdamar, A.,GÜRSEL, K.T. Özer, G., Peksoy, Y., "Investigations of the potential of wind-waves as a renewable energy resource: By the example of Cesme-Türkiye", Renewable and Sustainable Energy Reviews 8 (2004) 581-592. (SCI)
6.Örer, G.,GÜRSEL, K.T., Özdamar, A. Özbalta, N.,"Dalga Enerjisi Tesislerine Genel Bakış", Yenilenebilir Enerji Kaynakları Sempozumu, 15 - 18 Ekim 2003 YEKSEM 2003, Izmir.
7.I. López, J. Andreu, S. Ceballos, I. M. Alegría, I. Kortabarria, "Review of wave energy technologies and the necessary power-equipment" Renewable and Sustainable Energy Reviews 27 (2013) 413-434.

Planned Learning Activities and Teaching Methods

The course is taught in a format of lecture and discussion of topics, problems and solutions concerning power take-off systems in maritime renewable energy sources and their applications. All class members are expected to take part in the lectures. Besides the taught lecture, students should complete exercises.

Assessment Methods

SORTING NUMBER SHORT CODE LONG CODE FORMULA
1 MTE MIDTERM EXAM
2 ASG ASSIGNMENT
3 FIN FINAL EXAM
4 FCG FINAL COURSE GRADE MTE *0.35 + ASG *0.25 +FIN *0.40
5 RST RESIT
6 FCGR FINAL COURSE GRADE (RESIT) MTE *0.35 + ASG *0.25 +RST *0.40


*** Resit Exam is Not Administered in Institutions Where Resit is not Applicable.

Further Notes About Assessment Methods

None

Assessment Criteria

To be announced.

Language of Instruction

Turkish

Course Policies and Rules

To be announced.

Contact Details for the Lecturer(s)

Prof.Dr.K.Turgut Gürsel
Dokuz Eylul University, Institute of Marine Science and Technology,
Baku Bul. No:100 Inciralti, Balcova, Izmir
Tel: 0.232.2785565 Extension:148
Fax:0.232.2785082
e-mail: turgut.gursel@deu.edu.tr

Office Hours

Tuesday-Friday in office hours

Work Placement(s)

None

Workload Calculation

Activities Number Time (hours) Total Work Load (hours)
Practice (Care Plan) 14 2 28
Lectures 14 3 42
Reading 10 2 20
Preparation presentation 1 15 15
Preparations before/after weekly lectures 14 2 28
Preparation for midterm exam 1 12 12
Preparation for final exam 1 16 16
Preparing assignments 1 15 15
Midterm 1 6 6
Final Assignment 1 4 4
TOTAL WORKLOAD (hours) 186

Contribution of Learning Outcomes to Programme Outcomes

PO/LOPO.1PO.2PO.3PO.4PO.5PO.6PO.7PO.8PO.9PO.10PO.11PO.12
LO.1354554434555
LO.2354444335454
LO.3444343554444
LO.4334454544443
LO.5442544234545
LO.6234554443453
LO.7233354434554
LO.8345544344534