| Semester | Course Unit Code | Course Unit Title | T+P+L | Credit | Number of ECTS Credits |
| 8 | ME424 | FUEL CELL SCIENCE & ENGINEERING | 3+0+0 | 3 | 5 |
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Language of Instruction
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English
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Level of Course Unit
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Bachelor's Degree
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Department / Program
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MECHANICAL ENGINEERING
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Type of Program
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Formal Education
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Type of Course Unit
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Elective
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Course Delivery Method
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Face To Face
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Objectives of the Course
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In this course it is aimed to,
Explain basics of thermodynamics, electrochemical and transport processes governing fuel cell technology.
Introduce the different types of fuel cells and their working principles.
Discuss the parameters affecting fuel cell performance.
Present hydrogen storage and reforming processes and hydrogen economy.
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Course Content
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This course is aimed at students interested in the fundamental science and engineering of fuel cells and hydrogen energy. This course covers the fundamentals of electrochemistry and thermodynamics relevant for fuel cells, and the basics of fuel cell technology. Emphasis will be placed on proton-exchange membrane fuel cells and solid oxide fuel cells. Other types of fuel cells will be explained at the introductory level. Concepts in techniques for fuel reforming, water gas shift, and preferential oxidation of hydrocarbons will be covered, along with hydrogen storage and hydrogen safety.
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Course Methods and Techniques
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Prerequisites and co-requisities
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( ME237 )
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Course Coordinator
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None
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Name of Lecturers
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None
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Assistants
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None
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Work Placement(s)
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No
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Recommended or Required Reading
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Planned Learning Activities and Teaching Methods
Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"
Assessment Methods and Criteria
ECTS Allocated Based on Student Workload
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Activities
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Total Work Load
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Tartışma
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1
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3
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3
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Yazılı Sınav
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1
|
10
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10
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Grup Projesi
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1
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30
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30
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Sınıf İçi Aktivitesi
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1
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3
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3
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Okuma
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1
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1
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1
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Araştırma
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1
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2
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2
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Final Sınavı
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1
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15
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15
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Total Work Load
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Number of ECTS Credits 2
64
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Course Learning Outcomes: Upon the successful completion of this course, students will be able to:
| No | Learning Outcomes |
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1
| Identify fuel cell thermodynamics, mass & heat transfer and electrochemical processes in fuel cells. |
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2
| Define the working principles of the proton-exchange membrane (PEMFC) and solid oxide (SOFC) by their components. |
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3
| List the properties of hydrogen as a fuel and its state-of-art production and storage technologies. |
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4
| Use the techniques, skills, and modern engineering tools for modelling and analysis of fuel cell systems. |
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5
| State the impact of this technology in a global and societal context. |
Weekly Detailed Course Contents
| Week | Topics | Study Materials | Materials |
| 1 |
Introduction
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| 2 |
Fuel Cell Thermodynamics
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| 3 |
Fuel Cell Electrochemistry
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| 4 |
Fuel Cell Charge and Mass Transport
Second-Law Efficiency
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| 5 |
Fuel Cell Characterization
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| 6 |
Proton-Exchange Membrane Fuel Cells (PEMFCs)
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| 7 |
Solid Oxide Fuel Cells (SOFCs)
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| 8 |
Midterm Exam
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| 9 |
Lecture Free Week
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| 10 |
Other Types of Fuel Cells
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| 11 |
Fuels for Fuel Cells
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| 12 |
Hydrogen Production
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| 13 |
Hydrogen Storage
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| 14 |
Group Project Presentations
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| 15 |
Final Exam
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| 16 |
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Contribution of Learning Outcomes to Programme Outcomes
Contribution: 1: Very Slight 2:Slight 3:Moderate 4:Significant 5:Very Significant
https://sis.agu.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=72649&lang=en