Performance Analysis of Multi-Composite Layered Energy Harvesting From Thin-Film PZT With Smart Charging System

• Published in: 2024 IEEE Texas Power and Energy Conference (TPEC) pp. 1 - 5
• Main Authors: Kabir, Kazi Meharajul, Binzaid, Shuza
• Format: Conference Proceeding
• Language: English
• Published: IEEE 12.02.2024
• Subjects: Energy Generation; Energy harvesting; Lithium batteries; Low Energy; Multicompositle Layers; Performance analysis; Reliability; Roads; Smart charging; Sustainable development; Thin-Film PZT
• DOI: 10.1109/TPEC60005.2024.10472197

A pioneering energy harvesting system has been developed to analyze thin-film energy across various multi-layered composite PZT cells, incorporating a Smart Charging System for efficient energy storage in a lithium battery. The goal is to harness energy from thin-film PZT cells and establish an alternative energy generation system for road infrastructure. Each PZT layer undergoes independent assessment for its distinctive characteristics and energy generation capabilities. The Smart Charging System adeptly manages the charging process, optimizing energy utilization and storage. The study concentrates on augmenting the efficiency and reliability of Multi-composite-layered energy harvesting from thin-film PZT. Analytical techniques are employed to evaluate parameters such as energy generation capacity, pressure, speed, and the overall efficacy of the Smart Charging System. The research contributes to the progression of thin-film PZT technology for sustainable energy generation. Through the integration of a Smart Charging System, the study underscores pragmatic solutions for storing and utilizing harvested energy. The envisioned outcome is an innovative energy-generating pad that aligns with sustainability principles, offering potential applications in infrastructure development that will be a promising alternative energy-generation technology for the future.