In-situ Power Analysis of Green-electricity using Cu-Zn Electrodes as Conducting Materials

Abstract

This study evaluates the essential energy and climate impacts of living plants that are gathered together and used for electricity. The tropical desert plant (aloe-vera, AV) derived natural bio-organic material used to convert the waste mechanical energy into green electrical energy. Due to increased demands for energy and the current limitations of batteries, a self-design energy harvester that converts kinetic vibration energy from Aloe Vera into green electrical energy. These energy harvesters have the potential to be used in powering small-scale electronic devices such as measurement equipment in just a Lit-ion battery were available. Throughout this research work, nonconventional style of producing electricity with green engineering materials like Aloe Vera may stand as one of the new start renewable energy. Low voltage application that could generate power without having waste materials, and also protect the environment through pollution. The fore knowledge associated with critical conditions (i.e. the thickness and number of leaves by Cu-Zn electrodes) have been connected against the experiments result. Results clearly confirm the expectations from the resonance condition though, the plant and tree power is improbable to replace the power sources the most applications. Copper-Zinc cells are considered as good conducting materials for preparation and analyzes of electrodes and cells to influence the power performance from Aloe Vera.