Publication detail
ENERGY HARVESTING TECHNOLOGIES FOR SPECIAL APPLICATIONS
HADAŠ, Z. ANDRŠ, O. VETIŠKA, V. ANČÍK, Z.
Czech title
ENERGY HARVESTING TECHNOLOGIES FOR SPECIAL APPLICATIONS
English title
ENERGY HARVESTING TECHNOLOGIES FOR SPECIAL APPLICATIONS
Type
conference paper
Language
en
Original abstract
This paper deals with review and assessment of energy harvesting technologies applicable to special applications. These technologies harvest electrical energy from their surroundings using several physical principles. Surrounding of each technical system is enclosed by several types of ambient energy and this energy can be used for autonomous feeding of electrical devices. We can assume harvesting from mechanical energy of movement, vibration and shocks, solar and thermal energy, etc. Generally the amount of harvested energy is in very low level. However, a power consumption of modern electronic devices is in very low level too. Therefore these technologies can be very useful for autonomous supplying of many applications, for example autonomous electronics and diagnostic systems, wire-less sensors, wireless communications, etc. The autonomous energy harvesting sources will be described in this paper and the applicability for special applications will be evaluated.
Czech abstract
This paper deals with review and assessment of energy harvesting technologies applicable to special applications. These technologies harvest electrical energy from their surroundings using several physical principles. Surrounding of each technical system is enclosed by several types of ambient energy and this energy can be used for autonomous feeding of electrical devices. We can assume harvesting from mechanical energy of movement, vibration and shocks, solar and thermal energy, etc. Generally the amount of harvested energy is in very low level. However, a power consumption of modern electronic devices is in very low level too. Therefore these technologies can be very useful for autonomous supplying of many applications, for example autonomous electronics and diagnostic systems, wire-less sensors, wireless communications, etc. The autonomous energy harvesting sources will be described in this paper and the applicability for special applications will be evaluated.
English abstract
This paper deals with review and assessment of energy harvesting technologies applicable to special applications. These technologies harvest electrical energy from their surroundings using several physical principles. Surrounding of each technical system is enclosed by several types of ambient energy and this energy can be used for autonomous feeding of electrical devices. We can assume harvesting from mechanical energy of movement, vibration and shocks, solar and thermal energy, etc. Generally the amount of harvested energy is in very low level. However, a power consumption of modern electronic devices is in very low level too. Therefore these technologies can be very useful for autonomous supplying of many applications, for example autonomous electronics and diagnostic systems, wire-less sensors, wireless communications, etc. The autonomous energy harvesting sources will be described in this paper and the applicability for special applications will be evaluated.
Keywords in Czech
Energy Harvesting, Vibration, Shocks, Vibration energy harvester, Thermoelectric generator, Power Management, Thin film battery.
Keywords in English
Energy Harvesting, Vibration, Shocks, Vibration energy harvester, Thermoelectric generator, Power Management, Thin film battery.
RIV year
2013
Released
22.05.2013
Publisher
University of Defence
Location
Brno
ISBN
978-80-7231-917-6
Book
Proceedings of the International Conference on Military Technologies 2013 (ICMT'13)
Edition number
1
Pages from–to
173–181
Pages count
9
BIBTEX
@inproceedings{BUT101375,
author="Zdeněk {Hadaš} and Ondřej {Andrš} and Vojtěch {Vetiška} and Zdeněk {Ančík},
title="ENERGY HARVESTING TECHNOLOGIES FOR SPECIAL APPLICATIONS",
booktitle="Proceedings of the International Conference on Military Technologies 2013 (ICMT'13)",
year="2013",
month="May",
pages="173--181",
publisher="University of Defence",
address="Brno",
isbn="978-80-7231-917-6"
}