Design of artificial piezo-leaf wind energy harvesting system monitoring based on Blynk apps

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Abstract

This project presents a novel artificial piezo-leaf wind power harvester an improved approach using piezoelectric effect for an automatic monitoring system developed. This project used a piezo ceramic sensor as the main device to generate energy from waste energy of wind. Piezo ceramic is a material that will convert from the vibration with sufficient energy to an electrical energy. The piezo ceramic sensor installed in series and parallel for as much as possible till it can regulate voltage up to 1.0 V which by detect the vibration of wind and convert into electrical energy. The challenge of the previous renewable energy is energy crisis, the low input of rectifier circuit and lastly and method to monitoring the system. However, the purpose of this project is to develop the simplest an d practice the usage of renewable energy. Besides, piezo can convert mechanical energy (motion) to electrical energy for sensing or energy harvesting. Moreover, to develop the artificial piezo-leaf by using a piezo mechanism. Next, the AC-DC harvesting circuit were construct to function as transform alternating current (AC) input signal into direct current (DC) output signal. They are used in power electronic applications where the power input of 50 Hz sine-wave AC voltage that requires power conversion for a DC output. The piezo ceramic sensor will be connected with full-wave rectifier and the output result will shows the parameters of voltage at the LCD display after connected with Arduino R3. Hence, the monitoring system has been implemented by using Wi-Fi that can be connected directly and parameter monitor and control by using Bylnk apps. Indeed, it can save more cost, time and energy.

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APA

Fang, L. H., Rahim, R. A., & Naimah, S. (2021). Design of artificial piezo-leaf wind energy harvesting system monitoring based on Blynk apps. In AIP Conference Proceedings (Vol. 2339). American Institute of Physics Inc. https://doi.org/10.1063/5.0044292

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