The main purpose of this paper is to study a piezoelectric energy harvester in the form of vortex oscillation for fixed disturbance fluid type. The harvester consists of a fixed cylinder, an oscillating cylinder, flexible beams, and polyvinylidene fluorides (PVDFs). The flexible beam connects the fixed cylinder to the oscillating cylinder, and the PVDF is fixed to the flexible beam by means of adhesive, thus completing the assembly of the entire energy harvester. In this paper, the diameters of the fixed cylinder and oscillating cylinder and the length of the flexible beam are studied. In different parameter states, the harvester has different output performance; so the purpose of this study is to find a set of optimum parameters that will lead to the best harvester output. When the diameters of the fixed cylinder and oscillating cylinder are 50 and 20 mm, respectively, and the length of the flexible beam is 60 mm, the whole prototype has the best electrical output performance with 5.98 mu W power at 18 m/s. The whole prototype is sensitive to excitation at any wind speed and is able to convert and collect even weak streaming excitation energy from the environment. This structure offers greater reliability and durability than the disturbed fluid oscillation type piezoelectric harvester.
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