As small wind power generation has the incomparable advantage to the power supply at rural areas, this study researched the small wind-power system and related control technologies.
由于小型风力发电对边远地区供电有着无可比拟的优越性,因此本文的研究对象是小型风力发电系统及其控制技术。
The performance of small type of permanent magnetic wind power generator can be analyzed reasonably in one exact testing system, which will direct optimization and design.
而一套较为完整、精准的测试系统则会对小型永磁风力发电机的性能做出科学合理的判定,依此可以指导进一步的优化设计。
Therefore, it is meaningful to study the small wind power generation system.
因此,对小型风力发电系统进行研究具有重要的意义。
Large-scale wind power generators connecting to power grid increases the risk of day-ahead scheduling, meanwhile, the risk control could bring a small increase of coal consumption of the system.
风电机的大规模并网增加了日前调度的风险,同时对这种风险进行控制会使系统的煤耗有少量的提高。
Large-scale wind power generators connecting to power grid increases the risk of day-ahead scheduling, meanwhile, the risk control could bring a small increase of coal consumption of the system.
风电机的大规模并网增加了日前调度的风险,同时对这种风险进行控制会使系统的煤耗有少量的提高。
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