能量收集
热电效应
变量(数学)
可持续能源
环境科学
能量(信号处理)
农业工程
材料科学
工程物理
可再生能源
工程类
电气工程
数学
物理
热力学
统计
数学分析
作者
Shipu Jiao,Xin Hou,Yihao Zhang,Yanyan Qin,Qiumeng Dong,Xianhua Liu,Xiaohong Zhou
标识
DOI:10.1002/adsu.202500784
摘要
Abstract In response to the growing demand for sustainable energy solutions, this study presents a carbon black enhanced thermoelectric‐hydrovoltaic hybrid system that synergistically integrates a Bi 2 Te 3 ‐based thermoelectric battery with a hydrovoltaic generator. By leveraging the complementary mechanisms of thermal gradient utilization and evaporation‐driven ion transport, the hybrid system significantly enhances energy harvesting efficiency compared to standalone components. Experimental results demonstrate that the thermoelectric battery achieves an open‐circuit voltage of 260 mV under a temperature gradient of 60 °C, while the hydrovoltaic generator exhibits a 10.8% increase in output voltage due to accelerated evaporation enabled by thermal coupling. The system operates robustly across ambient conditions (30–60 °C), reducing dependence on external heat sources and a continuous water supply. This innovation offers a versatile platform for applications in wearable electronics and environmental monitoring, advancing the development of adaptive, self‐sustaining energy technologies.
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