电子科技大学学报2025,Vol.54Issue(3):464-470,7.DOI:10.12178/1001-0548.2024258
具有起升转速自传感的双向俘能装置研究
Research on a bidirectional energy harvesting device with self-sensing rotation speed
摘要
Abstract
The lifting mechanism of a crane needs to use sensors to monitor its motion parameters.Currently,sensors are mainly powered by power sources or batteries,which have problems such as wiring difficulties and inability to provide continuous power supply(battery-powered).For this purpose,a bidirectional energy harvesting triboelectric nanogenerator(TENG)with self-powered sensing function is studied.The TENG can monitor the rotating speed of the drum of the lifting mechanism while capture natural wind energy and the potential energy of the descent of heavy objects.Based on the working principle of TENG,a bidirectional energy harvesting TENG structure is designed,and a prototype with self-powered sensing function is developed.According to the actual working environment of the lifting mechanism,an experimental test system is built to conduct output performance,sensing,and application demonstrations.The research results show that the TENG can simultaneously collect wind energy in the environment and the potential energy of the descent of heavy objects in the lifting mechanism.The bidirectional energy harvesting mechanism can significantly improve the output performance by 40%compared with the unidirectional energy harvesting.Meanwhile,the motion state of the lifting mechanism is monitored by collecting and analyzing the output electrical signals,and the monitoring error of the rotating speed of the drum of the lifting mechanism is less than 1%.This work expands the research of TENG in energy harvesting and self-powered sensing,providing a new solution for monitoring the motion state of lifting mechanisms.关键词
摩擦纳米发电机/起升机构/双向俘能/自驱动传感Key words
triboelectric nanogenerator/lifting mechanism/bidirectional energy harvesting/self-powered sensing分类
信息技术与安全科学引用本文复制引用
孟丽霞,孟健,刘士明,王封懿..具有起升转速自传感的双向俘能装置研究[J].电子科技大学学报,2025,54(3):464-470,7.基金项目
辽宁省教育厅基本科研项目(JYTMS20231585) (JYTMS20231585)
国家重点研发计划课题(2024YFB3411101) (2024YFB3411101)
