This paper describes the numerical and experimental design activity performed to optimize the layout of a new energy harvester based on the flexural vibration periodically excited by rotating permanent magnets of a cantilever with surface onded piezoelectric layers. Test case concerns the possibility of supplying the required power to some sensors in monitored back–up roll bearings used in the rolling mill. A suitable methodology to assess the layout of the energy scavenger is discussed. Investigating the feasibility and the efficiency of his device in the contest of the proposed industrial application is a goal of the activity as well as the detection of the critical issues of the mechatronic design of the energy scavenger, eing an example of multiple electromechanical coupling.
OPTIMISATION OF A HYBRID ENERGY SCAVENGER WITH PIEZOELECTRIC/MAGNETIC COUPLING FOR SENSOR-BEARING UNITS / Brusa, Eugenio. - STAMPA. - 745:(2013), pp. 41-56. [10.4028/www.scientific.net/AMR.745.41]
OPTIMISATION OF A HYBRID ENERGY SCAVENGER WITH PIEZOELECTRIC/MAGNETIC COUPLING FOR SENSOR-BEARING UNITS
BRUSA, Eugenio
2013
Abstract
This paper describes the numerical and experimental design activity performed to optimize the layout of a new energy harvester based on the flexural vibration periodically excited by rotating permanent magnets of a cantilever with surface onded piezoelectric layers. Test case concerns the possibility of supplying the required power to some sensors in monitored back–up roll bearings used in the rolling mill. A suitable methodology to assess the layout of the energy scavenger is discussed. Investigating the feasibility and the efficiency of his device in the contest of the proposed industrial application is a goal of the activity as well as the detection of the critical issues of the mechatronic design of the energy scavenger, eing an example of multiple electromechanical coupling.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2507529
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