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TY  - BOOK
ID  - 146358173
TI  - Advanced Energy Harvesting Technologies
PY  - 2022
PB  - Basel MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Technology: general issues
KW  - History of engineering & technology
KW  - piezoelectric harvester
KW  - orthoplanar spring
KW  - trapezoidal leg
KW  - vibration energy
KW  - acoustic resonance
KW  - closed side branch
KW  - DDES
KW  - wind energy harvester
KW  - Autonomous Internet of Things
KW  - vibration energy harvesting
KW  - electromagnetic-mechanical modeling
KW  - autonomous sensors
KW  - self-powered device
KW  - battery-less modules
KW  - energy harvesting
KW  - Wiegand sensor
KW  - self-oscillating boost converter
KW  - power management
KW  - connected vehicles
KW  - smart cities
KW  - electric vehicle
KW  - IoT
KW  - Tesla
KW  - triboelectric nanogenerators
KW  - ocean wave
KW  - artificial intelligence
KW  - structural health monitoring
KW  - TEG
KW  - thermoelectricity
KW  - thermal energy harvesting
KW  - tracker
KW  - wildlife
KW  - animal
KW  - ultra low power
KW  - 3D printed
KW  - vibration harvester
KW  - electromagnetic
KW  - hybrid
KW  - photovoltaics
KW  - solar panel
KW  - highway
KW  - urban street
KW  - experimental investigation
KW  - water
KW  - solar still
KW  - absorber
KW  - silicon
KW  - temperature
KW  - dual resonance frequencies
KW  - vibration electromagnetic energy harvester
KW  - wide harvested frequency range
KW  - enhanced "band-pass" harvested power
KW  - independent resonant frequencies
KW  - autonomous wireless sensor
KW  - passive energy management
KW  - weak vibration
KW  - electromagnetic converter
KW  - wideband
KW  - planar spring
KW  - voltage multiplier
KW  - rectifier
KW  - predictive maintenance
KW  - failure detection
KW  - WSN
KW  - piezoelectric harvester
KW  - orthoplanar spring
KW  - trapezoidal leg
KW  - vibration energy
KW  - acoustic resonance
KW  - closed side branch
KW  - DDES
KW  - wind energy harvester
KW  - Autonomous Internet of Things
KW  - vibration energy harvesting
KW  - electromagnetic-mechanical modeling
KW  - autonomous sensors
KW  - self-powered device
KW  - battery-less modules
KW  - energy harvesting
KW  - Wiegand sensor
KW  - self-oscillating boost converter
KW  - power management
KW  - connected vehicles
KW  - smart cities
KW  - electric vehicle
KW  - IoT
KW  - Tesla
KW  - triboelectric nanogenerators
KW  - ocean wave
KW  - artificial intelligence
KW  - structural health monitoring
KW  - TEG
KW  - thermoelectricity
KW  - thermal energy harvesting
KW  - tracker
KW  - wildlife
KW  - animal
KW  - ultra low power
KW  - 3D printed
KW  - vibration harvester
KW  - electromagnetic
KW  - hybrid
KW  - photovoltaics
KW  - solar panel
KW  - highway
KW  - urban street
KW  - experimental investigation
KW  - water
KW  - solar still
KW  - absorber
KW  - silicon
KW  - temperature
KW  - dual resonance frequencies
KW  - vibration electromagnetic energy harvester
KW  - wide harvested frequency range
KW  - enhanced "band-pass" harvested power
KW  - independent resonant frequencies
KW  - autonomous wireless sensor
KW  - passive energy management
KW  - weak vibration
KW  - electromagnetic converter
KW  - wideband
KW  - planar spring
KW  - voltage multiplier
KW  - rectifier
KW  - predictive maintenance
KW  - failure detection
KW  - WSN
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:146358173
AB  - Energy harvesting is the conversion of unused or wasted energy in the ambient environment into useful electrical energy. It can be used to power small electronic systems such as wireless sensors and is beginning to enable the widespread and maintenance-free deployment of Internet of Things (IoT) technology. This Special Issue is a collection of the latest developments in both fundamental research and system-level integration. This Special Issue features two review papers, covering two of the hottest research topics in the area of energy harvesting: 3D-printed energy harvesting and triboelectric nanogenerators (TENGs). These papers provide a comprehensive survey of their respective research area, highlight the advantages of the technologies and point out challenges in future development. They are must-read papers for those who are active in these areas. This Special Issue also includes ten research papers covering a wide range of energy-harvesting techniques, including electromagnetic and piezoelectric wideband vibration, wind, current-carrying conductors, thermoelectric and solar energy harvesting, etc. Not only are the foundations of these novel energy-harvesting techniques investigated, but the numerical models, power-conditioning circuitry and real-world applications of these novel energy harvesting techniques are also presented.
ER  -