RENEWABLE
ENERGY SYSTEMS
MAK 4067 E
2025-2026 Fall
CRN: 15018
Lecturer : Seyhan ONBAŞIOĞLU
Room :
537
e-mail : onbasiogl1@itu.edu.tr
Office Hours : Any time by appoinment
Course Hours : Tuesday15.30-16.30, Thursday 13.30-15.30
Course Description : Sustainable
energy and utilization of energy sources. Fundamental concepts: Industry 4.0,. Energy
Storage. Demand – Supply Analysis, Scale Analysis. Capacity factor.
Effectiveness. Geothermal energy utilization: Thermodynamic cycles, heat pumps.
Wind energy utilization: Basic aerodynamics, statistics, capacity factor.
Biomass Conversion: Aneorobic digestion, power generation. Hydrogen Energy. Hydrogen
Production. Fuel Cells: Thermodynamics.
Solar Energy: Thermal power. Energy efficient buildings. Photovoltaic
Systems: Semi-conductors, solar modules. Vehicle Dynamics. EV’s, HEV’s.
Batteries. Fusion
The Core Textbook :
Renewable
Energy Systems, Lecture Notes, 2026 to be uploaded on ninova. Also additional
notes discussed during the class will be uploaded throughout the semester.
Please follow the ninova page of the course.
Other References:
1-
da Rosa A.V.,
Fundamentals of Renewable Energy
Processes, Academic Press. Fourth Edition, 2021.
2- Sundén, Bengt, Hydrogen,
Batteries and Fuel Cells, Academic
Press, https://doi.org/10.1016/C2018-0-01247-5.
2019
3-
Hayes J. G.,
and Goodarzi, G. A., Electric Powertrain
: Energy Systems, Power Electronics and Drives for Hybrid, Electric and Fuel
Cell Vehicles, John Wiley & Sons, Incorporated, 2018.
4- Hodge BK, Alternative Energy Systems and Applications,
John Wiley and Sons, 2017.
5- Sorensen, B., Renewable
Energy: Physics, Engineering, Environmental Impacts, Economics and
Planning, Academic
Press, Fifth Edition, 2017.
6-
Kreith F.,
Goswami DY, Energy efficiency and
renewable energy handbook, CRC Press, 2016.
7- Buxton, G., Alternative
Energy Technologies: An Introduction with Computer Simulations, CRC Press,
2015.
8-
Twidell, J., Weir, T., Renewable
Energy Resources, Third Edition, Routledge, Taylor&Francis Group, 2015.
9-
Micheliedes, E.E., Alternative
Energy Sources, Springer, 2012.
10-
Tester, J. W., Drake, E. M., Driscoll, M. J.,
Golay, M. W., Peters, W. A., Sustainable
Energy, Second Edition : Choosing among Options, MIT Press, 2012.
Assessment Criteria:
Quizzes :
6 x 5
= 30 (2nd.,
4th., 6th., 8th., 10th and 12th. weeks)
Project and
Essay : 1 x 30 = 30
Final : 1x 40 = 40
70% Attendance and
taking at least 3 quizzes are assets for having the right of final exam!
Project will be on design of a large-scale
phase system and should cover statistical demand and supply data analysis.
Course Plan:
1 |
Sept.
23-25 |
Introduction
and General Concepts |
2 |
Sept. 30-Oct. 02 |
Geothermal Energy |
3 |
Oct. 07-09 |
Wind Energy |
4 |
Oct.14-16 |
Solar Power (General, Passive methods
in buildings) |
5 |
Oct. 21-23 |
Solar Power (Thermal Energy Conversion) |
6 |
Oct. 28-30 |
Solar Power (Direct Energy Conversion) |
7 |
Nov. 04-06 |
Fuel Cells |
8 |
Nov. 18-20 |
Presentation of Intermediate Calculations of the
Project |
9 |
Nov. 25-27 |
Hydrogen Production/Hydrogen Storage |
10 |
Dec.02-04 |
Batteries |
|
Overview of Electric and
Hybrid Vehicles Vehicle Dynamics |
|
11 |
Dec. 09-11 |
Storage |
12 |
Dec. 16-18 |
Biomass Conversion Proceses (Anerobic Digestion) |
13 |
Dec. 23-25 |
Biomass Conversion Proceses (Gasification) |
14 |
Dec. 30 |
Fusion Energy |
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