Publication detail
ENERGY HARVESTING – OPPORTUNITY FOR FUTURE REMOTE APPLICATIONS
HADAŠ, Z. SINGULE, V.
Czech title
ENERGY HARVESTING – OPPORTUNITY FOR FUTURE REMOTE APPLICATIONS
English title
ENERGY HARVESTING – OPPORTUNITY FOR FUTURE REMOTE APPLICATIONS
Type
conference paper
Language
cs
Original abstract
This paper deals with energy harvesting principles, current and future applications of these devices. The paper critically evaluates opportunity of such power supplies for future remote applications (wireless sensing, autonomous electronics, mobile technologies etc.) and makes an effort to describe advantages of energy harvesters against traditional power supplies. The definition of energy harvesting describes these technologies as the use of an ambient energy to provide electrical power for small electronic and electrical devices making them self-sufficient. The technologies employed variously convert human power, body fluids, heat differences, vibration or other movement, ultraviolet, visible light or infrared to electricity and there are more options coming along. The progress in wireless technologies on start of new millennium made demands on inexhaustible power source for wireless applications and the ambient energy seems like the suitable power source. The surrounding of most engineering systems contains some form of an ambient energy. Currently most of energy harvesting applications is tested in the laboratory and practical applications of some energy harvesting technologies (photovoltaic, thermoelectric generators, vibration energy harvesters etc.) have been used in several engineering applications. The aim of this paper is brief state of art and review of these technologies.
Czech abstract
This paper deals with energy harvesting principles, current and future applications of these devices. The paper critically evaluates opportunity of such power supplies for future remote applications (wireless sensing, autonomous electronics, mobile technologies etc.) and makes an effort to describe advantages of energy harvesters against traditional power supplies. The definition of energy harvesting describes these technologies as the use of an ambient energy to provide electrical power for small electronic and electrical devices making them self-sufficient. The technologies employed variously convert human power, body fluids, heat differences, vibration or other movement, ultraviolet, visible light or infrared to electricity and there are more options coming along. The progress in wireless technologies on start of new millennium made demands on inexhaustible power source for wireless applications and the ambient energy seems like the suitable power source. The surrounding of most engineering systems contains some form of an ambient energy. Currently most of energy harvesting applications is tested in the laboratory and practical applications of some energy harvesting technologies (photovoltaic, thermoelectric generators, vibration energy harvesters etc.) have been used in several engineering applications. The aim of this paper is brief state of art and review of these technologies.
English abstract
This paper deals with energy harvesting principles, current and future applications of these devices. The paper critically evaluates opportunity of such power supplies for future remote applications (wireless sensing, autonomous electronics, mobile technologies etc.) and makes an effort to describe advantages of energy harvesters against traditional power supplies. The definition of energy harvesting describes these technologies as the use of an ambient energy to provide electrical power for small electronic and electrical devices making them self-sufficient. The technologies employed variously convert human power, body fluids, heat differences, vibration or other movement, ultraviolet, visible light or infrared to electricity and there are more options coming along. The progress in wireless technologies on start of new millennium made demands on inexhaustible power source for wireless applications and the ambient energy seems like the suitable power source. The surrounding of most engineering systems contains some form of an ambient energy. Currently most of energy harvesting applications is tested in the laboratory and practical applications of some energy harvesting technologies (photovoltaic, thermoelectric generators, vibration energy harvesters etc.) have been used in several engineering applications. The aim of this paper is brief state of art and review of these technologies.
Keywords in Czech
Energy Harvesting, Mechatronics, Generator, Electro-mechanical System
Keywords in English
Energy Harvesting, Mechatronics, Generator, Electro-mechanical System
RIV year
2011
Released
09.05.2011
Publisher
Academy of sciences of the Czech Republic, v.v.i.
Location
Praha
ISBN
978-80-87012-33-8
Book
Engineering Mechanics 2011
Edition number
1
Pages from–to
167–170
Pages count
4
BIBTEX
@inproceedings{BUT74984,
author="Zdeněk {Hadaš} and Vladislav {Singule},
title="ENERGY HARVESTING – OPPORTUNITY FOR FUTURE REMOTE APPLICATIONS",
booktitle="Engineering Mechanics 2011",
year="2011",
month="May",
pages="167--170",
publisher="Academy of sciences of the Czech Republic, v.v.i.",
address="Praha",
isbn="978-80-87012-33-8"
}