Description
Applications of Energy Harvesting Technologies in Buildings
Authors: BEEBY Stephen, BEEBY Stephen
Language: EnglishSubject for Applications of Energy Harvesting Technologies in Buildings:
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Publication date: 02-2017
230 p. · Paperback
230 p. · Paperback
Description
/li>Contents
/li>Biography
/li>
This timely new resource explores the available energy sources within
commercial and residential buildings and the available technologies for
energy harvesting. Energy harvesting within built environments is
presented using strong research and commercial examples.
This book includes clear and concise case studies on solar cell powered sensor nodes for emotion monitoring systems in ambient assistive living environments and inductive/RF power transfers. Thermoelectric energy harvesting and power management circuit design, airflow and vibration energy harvesting is also explored. The book concludes with a look at the future of energy harvesting in buildings.
This book includes clear and concise case studies on solar cell powered sensor nodes for emotion monitoring systems in ambient assistive living environments and inductive/RF power transfers. Thermoelectric energy harvesting and power management circuit design, airflow and vibration energy harvesting is also explored. The book concludes with a look at the future of energy harvesting in buildings.
- Energy Harvesting in Built Environment
- Case Study: Solar cell powered sensor node for an emotion monitoring system in Ambient Assistive Living Environment
- Thermoelectric Energy Harvesting and Power Management Circuits Design
- Inductive/RF Power Transfer and Case Study
- Airflow Energy Harvesting
- Vibration Energy Harvesting
- The Future of Energy Harvesting in Buildings
- Case Study: Solar cell powered sensor node for an emotion monitoring system in Ambient Assistive Living Environment
- Thermoelectric Energy Harvesting and Power Management Circuits Design
- Inductive/RF Power Transfer and Case Study
- Airflow Energy Harvesting
- Vibration Energy Harvesting
- The Future of Energy Harvesting in Buildings
Stephen Beeby is an advanced research fellow at the School of Electronics and Computer Science, University of Southampton. He also the co-author of MEMS Mechanical Sensors (Artech House, 2004) and numerous journal articles and conference papers. He holds an Eng. (Hons) degree in mechanical engineering from the University of Portsmouth, U.K. and a Ph.D. in mechanical Engineering from the University of Southampton.
Joseph W. Matiko is an assistant lecturer in the department of Electronics and Telecommunication, Dar es Salaam Institute of Technology. He received his Ph.D. from the University of Southampton, United Kingdom and his BEng degree in electronics and telecommunication engineering from the Dar es Salaam Technology, Tanzania.
Joseph W. Matiko is an assistant lecturer in the department of Electronics and Telecommunication, Dar es Salaam Institute of Technology. He received his Ph.D. from the University of Southampton, United Kingdom and his BEng degree in electronics and telecommunication engineering from the Dar es Salaam Technology, Tanzania.
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