TY - GEN
T1 - Optimization of energy harvesting concepts from vibration by piezoelectric actuator design
AU - Murillo, Nieves
AU - Maudes, Jon
AU - Perez-Marquez, Ana
AU - Ortiz, Javier
AU - Aranguren, Gerardo
PY - 2016
Y1 - 2016
N2 - The power supply is a major need in the sensor network deployment for structural monitoring applications in non-accessible structures and components. To develop smart structures within the Industry 4.0 and the smart anything everywhere concepts, autonomous integrated sensors are needed. Under this premise, the present work presents several low cost energy harvesting solutions to support the design phase as a function of the surrounding available vibrations and the electronic components requirements. The simplest system to evaluate the potential design strategies is the evaluation of the piezoelectric sensor in a cantilever configuration that induces the mechanical stress in the piezoelectric layer to produce the voltage to be stored in the battery. The most efficient design is the bimorph concept, where two thin piezoelectric layers separated by a non-active intermediate layer are used. The flexibility, robustness and efficiency of homemade and commercially available bimorph PZT and PVDF sensors designs has been tested by authors under similar acceleration forces.
AB - The power supply is a major need in the sensor network deployment for structural monitoring applications in non-accessible structures and components. To develop smart structures within the Industry 4.0 and the smart anything everywhere concepts, autonomous integrated sensors are needed. Under this premise, the present work presents several low cost energy harvesting solutions to support the design phase as a function of the surrounding available vibrations and the electronic components requirements. The simplest system to evaluate the potential design strategies is the evaluation of the piezoelectric sensor in a cantilever configuration that induces the mechanical stress in the piezoelectric layer to produce the voltage to be stored in the battery. The most efficient design is the bimorph concept, where two thin piezoelectric layers separated by a non-active intermediate layer are used. The flexibility, robustness and efficiency of homemade and commercially available bimorph PZT and PVDF sensors designs has been tested by authors under similar acceleration forces.
KW - Energy Harvesting (EH)
KW - Piezoelectric sensors
KW - PVDF aerospace
KW - PZT
KW - Railway and infrastructures applications
KW - Vibration
UR - http://www.scopus.com/inward/record.url?scp=84995494470&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84995494470
T3 - 8th European Workshop on Structural Health Monitoring, EWSHM 2016
SP - 1867
EP - 1876
BT - 8th European Workshop on Structural Health Monitoring, EWSHM 2016
PB - NDT.net
T2 - 8th European Workshop on Structural Health Monitoring, EWSHM 2016
Y2 - 5 July 2016 through 8 July 2016
ER -