Duration
4 weeksWeekly study
4 hours100% online
How it works
An Introduction to Energy Harvesting Technology
Power the planet with sustainable applications in energy harvesting technology
Billions of batteries are thrown away every year, but as sustainability and renewable energy gain more global attention, the world is turning to alternative power sources to power a greener future.
Unpack the inner workings of one such popular power source, energy harvesting, with the experts at Sungkyunkwan University. With their insight and through practical learning, you’ll explore the fundamental principles of energy harvesting and walk away with a better understanding of how to apply its technologies for a more sustainable planet.
Get an introduction to energy and thermodynamics
You’ll begin this course with the basics, exploring key concepts like energy conversion, the Carnot cycle, and the second law of thermodynamics.
Engage with real-world applications and case studies to see how these principles are applied in various engineering and scientific contexts.
Explore materials science for energy harvesting
You’ll expand on this knowledge by delving into materials science and how its importance for energy harvesting. You’ll study the electrical and mechanical properties of materials, including concepts like band theory and grain boundary issues, which are essential for designing effective energy harvesting systems.
Grasp energy harvesting mechanisms and advanced concepts, including TENG
Next, you’ll investigate static electricity and its role in energy harvesting, comparing it with other methods like electromagnetic generators (EMGs). You’ll then learn the mechanisms behind TENGs, such as contact and rotation, and learn about their applications, including their use in bioapplications and acoustic sensors.
By the end of this course, you’ll have a comprehensive understanding of these technologies and their potential in practical energy harvesting solutions.
Syllabus
Week 1
Energy and Thermodynamics
Chapter 1
Welcome to the Energy Harvesting with Static Electricity Course!
Chapter 2
Let's learn about the first law of thermodynamics.
Chapter 3
Let's learn about the second law of thermodynamics.
Week 2
Materials property and Energy Harvesting
Chapter 4
Let's talk about introduction to basic material science
Chapter 5
Let's study the defects in materials and mechanical properties of materials.
Chapter 6
Let's learn about energy harvesting.
Week 3
Energy Harvesting _ Triboelectric Nanogenerator
Chapter 7
Let's learn about Energy Harvesting, Triboelectric Nanogenerator.
Chapter 8
Let's learn about Parameters for enhancing triboelectric power output 2.
Week 4
Applications of Triboelectric Energy Harvesting
Chapter 9
Let's learn about Parameters for enhancing triboelectric power output 1
Chapter 10
Let's learn about Parameters for enhancing triboelectic power output 2
Chapter 11
Let's learn about Applications of triboelectric energy harvesting
When would you like to start?
Start straight away and join a global classroom of learners. If the course hasn’t started yet you’ll see the future date listed below.
Available now
Learning on this course
On every step of the course you can meet other learners, share your ideas and join in with active discussions in the comments.
What will you achieve?
By the end of the course, you‘ll be able to...
- Explore overall knowledge of Thermodynamics and Material science
- Design various applications of energy harvesting that can be used in our daily life
- Understand mechanism and principles of energy harvesting
- Learn latest research trend of energy harvesting field
Who is the course for?
This introductory course is designed for anyone with an interest in energy harvesting or adjacent fields. No prior knowledge is needed to join as it aims to provide an overview of the fundamentals of energy harvesting.
Who will you learn with?
Hyoungtaek Kim is Ph.D candidate student in Sungkyunkwan University. His research interest is static electricity and its applications.
I am Bosung Kim and Ph.D candidate student at Sungkyunkwan University. Now I am studying about Static & Piezoelectric Energy Harvesting and its various applications
Sang-Woo Kim is full professor of advanced materials science and engineering at the Sungkyunkwan University. And he is associate editors member in "Nano Energy", Elsevier.
Who developed the course?
Established
1398Location
Seoul, South KoreaWorld ranking
Top 100Source: QS World University Rankings 2021
Ways to learn | Buy this course | Subscribe & save | Limited access |
---|---|---|---|
Choose the best way to learn for you! | $109/one-off payment | $244.99 for a whole year Automatically renews | Free |
Fulfill your current learning need | Develop skills to further your career | Sample the course materials | |
Access to this course | tick | tick | Access expires 23 Feb 2025 |
Access to 1,000+ courses | cross | tick | cross |
Learn at your own pace | tick | tick | cross |
Discuss your learning in comments | tick | tick | tick |
Tests to check your learning | tick | tick | cross |
Certificate when you're eligible | Printed and digital | Digital only | cross |
Cancel for free anytime |
Ways to learn
Choose the best way to learn for you!
Subscribe & save
$244.99 for a whole year
Automatically renews
Develop skills to further your career
- Access to this course
- Access to 1,000+ courses
- Learn at your own pace
- Discuss your learning in comments
- Tests to boost your learning
- Digital certificate when you're eligible
Cancel for free anytime
Buy this course
$109/one-off payment
Fulfill your current learning need
- Access to this course
- Learn at your own pace
- Discuss your learning in comments
- Tests to boost your learning
- Printed and digital certificate when you’re eligible
Limited access
Free
Sample the course materials
- Access expires 23 Feb 2025
Find out more about certificates, Unlimited or buying a course (Upgrades) Sale price available until 3 March 2025 at 23:59 (UTC). T&Cs apply. |
Find out more about certificates, Unlimited or buying a course (Upgrades)
Sale price available until 3 March 2025 at 23:59 (UTC). T&Cs apply.
Learning on FutureLearn
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- Learn through a mix of bite-sized videos, long- and short-form articles, audio, and practical activities
- Stay motivated by using the Progress page to keep track of your step completion and assessment scores
Join a global classroom
- Experience the power of social learning, and get inspired by an international network of learners
- Share ideas with your peers and course educators on every step of the course
- Join the conversation by reading, @ing, liking, bookmarking, and replying to comments from others
Map your progress
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- Whenever you’re ready, mark each step as complete, you’re in control
- Complete 90% of course steps and all of the assessments to earn your certificate
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