Application of Biomass Energy Monitoring Based on Renewable Energy Supply in Sports

Abstract

Biomass energy is an ideal form of clean, renewable energy, characterized by its wide availability, low cost, strong renewability, and minimal pollution. The development and utilization of biomass energy are crucial for mitigating greenhouse effects, reducing air pollution, and alleviating energy pressure. Multi-functional biomass energy monitoring equipment and integrated systems have received extensive attention and are flourishing. This integrated design demonstrates a higher degree of integration, overall unity, diversification, and intelligence, which helps overcome the current developmental challenges of single-functionality and system isolation. One of the most representative designs of these integrated devices is the multi-energy conversion and utilization system, which efficiently converts low-grade energy into high-grade energy and provides various conversion pathways within a single system. This supplies ample energy for daily life and enables its full application in sports. By integrating self-powered wearable technology, this paper explores the use of a wearable sensor composed of KAP composite polyacrylamide/polyacrylic acid hydrogel (PAAH), namely KAP PAAH. The strain-voltage response and real-time sensing provided by KAP PAAH facilitate an electrically driven, self-powered integrated wearable sensor for human joint health monitoring. Additionally, this approach maximizes the residual value of biomass waste, highlighting its potential and high economic value for future practical applications. Specifically, the optimized design ensures reliable and continuous health monitoring during various sports activities, thus aligning with the broader environmental benefits of biomass energy.