摘要
基于物联网技术,研究一种太阳能-氢能发电技术。将太阳光通过光电效应转换成电能;太阳能电流与电解水制氢技术相结合产生氢气;氢气与燃料电池发生电化学反应产生电能。实验结果表明,太阳能-氢能发电平台运行稳定,实现了最大发电效率的自动追踪、远程联网控制、实时显示电流和电压信息等功能,为异种能源相结合开发利用技术提供参考与借鉴。
Based on the Internet of things technology,a solar-hydrogen power generation technology is studied.Converting sunlight into electric energy through photoelectric effect;Hydrogen is produced by the combination of solar current and electrolytic water hydrogen production technology;Hydrogen reacts electrochemically with fuel cells to produce electric energy.The experimental results show that the solar-hydrogen power generation platform operates stably,and realizes the functions of automatic tracking of maximum power generation efficiency,remote networked control,real-time display of current and voltage information,which provides a reference for the development and utilization of heterogeneous energy.
作者
何剑朋
姚屏
白路
陈美沂
He Jianpeng;Yao Ping;Bai Lu;Chen Meiyi(Guangdong Polytechnic Normal University,Guangzhou 510665,China)
出处
《自动化与信息工程》
2021年第4期50-53,57,共5页
Automation & Information Engineering
基金
国家自然科学基金(51805099)
广东省省级科技计划(2017B090914005)
广东省研究生教育创新计划(2017QTLXXM38)
广东省教育厅2020年普通高校重点科研项目(2020ZDZX2019)。
关键词
光伏发电
最大发电效率
氢能发电
物联网
photovoltaic power generation
the maximum power generation efficiency
hydrogen power
internet of things
