摘要
在全球能源转型加速之际,太阳能光伏产业举足轻重。本研究聚焦光伏跟踪系统,针对机电设计现存问题攻坚。深入探究机械架构、电气调控等关键部分,凭借前沿技术革新传动形式、优化控制算法、强化散热手段、促进系统集成。经多番实践验证,精准提升发电效率,增强系统稳定性与适应性,为光伏产业拓展注入活力,推动清洁能源大步向前。
关键词: 太阳能;光伏跟踪系统;机电设计;发电效率;智能控制
Abstract
Amid the accelerated global energy transition, the solar photovoltaic industry plays a pivotal role. This study focuses on photovoltaic tracking systems, tackling existing issues in electromechanical design. It delves into key components such as mechanical structures and electrical control, leveraging cutting-edge technology to innovate transmission methods, optimize control algorithms, enhance cooling measures, and promote system integration. Through extensive practical validation, it precisely improves power generation efficiency, enhances system stability and adaptability, injects vitality into the expansion of the photovoltaic industry, and propels clean energy forward.
Key words: Solar energy; Photovoltaic tracking system; Electromechanical design; Power generation efficiency; Intelligent control
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