Abstract
Triboelectric nanogenerator (TENG) as an energy harvester faces the challenges of low surface charge density, dust generation in friction and soft contact within dielectrics. Accordingly, a charge pumping triboelectric nanogenerator with a tubular-plate coupled structure is proposed to address the above challenges and is used to harvest wind energy. It mainly consists of a top tubular TENG and a bottom plate TENG, synchronously driven by an unidirectionally open-closed fan blade through a shared shaft. The unidirectionally open-closed fan blades produce an eccentric torque with the different open-closed states, which is used as the impetus for the unidirectional rotation of the fan structure and the rotor of TENG. Charge pumping technology is applied in top TENG to enhance surface charge density and outputting electricity in way of noncontact electrostatic induction. The COMSOL software is applied to obtain the distribution of electric field and potential during the relative motion of two tubular electrodes. Lint blades and steel sheets are utilized in bottom TENG for the dust clearance and the elastic support, respectively. Consequently, the voltage is increased by 15.5 times and the current about 3.0 times with the charge pumping strategy. The dust clearance and elastic support can improve the output current. The total output voltage is up to 2.8 kV and the current is 103.0 μA at 200 rpm, generating a peak power of 184.9 mW and an average power of 6.4 mW. A buck circuit is used in the output circuit to lower and stabilize the output voltage for the electronics. The output electricity can support the work of a thermo-hygrometer, two linear lamps (10 W), two circular LED lamps (18 W), and light 417 big LEDs with a diameter of 10 mm, serving as a continuous energy source in wilds.
Published Version
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