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出 处:《科技创新与应用》2020年第23期46-48,共3页Technology Innovation and Application
基 金:国家重点研发计划(编号:2016YFC0402504);2018年可再生能源科技竞赛国家级特等奖项目(编号:2018-KZS-072)。
摘 要:针对目前大部分地区水塔采用当地电网供能、电能消耗巨大的情况,结合水塔高处风资源与水重力势能互补等优势,介绍此种新型独立互补式风力发电与管道发电智能水塔系统的工作原理和运行方式。该系统通过将不平稳可再生能源转换成平稳持续能源以替代传统化石能源供电、构建分布式电源,通过仿真分析及模型试验得出其独立性佳、稳定性好、经济节约、节能减排等优点。最后结合具体数据和实验分析证明了使用该系统能够大幅度降低小型居民区和工业区日常能耗的结论,同时为我国偏远地区、岛礁、梯田以及军区建设提供新思路。In view of the fact that the water towers in most areas are supplied by the local power grid and the huge power consumption, combined with the advantages of complementary wind resources and water gravity potential energy at the top of the water tower, the working principle and operation mode of this new independent complementary intelligent water tower system for wind power generation and pipeline power generation are introduced. By converting unstable renewable energy into stable and sustainable energy to replace traditional fossil energy, the system constructs distributed power supply. Through simulation analysis and model tests, it is concluded that it has the advantages of good independence, good stability, economic saving, energy saving and emission reduction. Finally, based on specific data and experimental analysis, it is proved that the use of the system can greatly reduce the daily energy consumption of small residential and industrial areas, and provide new ideas for the construction of remote areas, islands and reefs,terraces and military regions in China.
分 类 号:TM61[电气工程—电力系统及自动化]
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