This allows the Lakota to harness far more energy annually than comparable similar wind turbine generators.
这就使得LAKOTA每年能够利用远远多于由可比较的相似风机所产生的电。
The power output of a wind power plant is stochastic, which is determined by the wind and wind turbine generators.
风资源最大的特点就是风速的大小和方向的随机性,风的这种特性决定了风力发电厂输出功率的随机性。
Wind turbine generators have relatively large influence on grid frequency when they start up and are connected to the power grid.
当风力发电机组在额定风速启动并网时,对电网频率的影响较大。
This paper introduces an effective method suitable for wind farm central control which USES PLC as the wind turbine generators main control unit.
介绍一种基于PLC为风力发电机主控单元,适于风电场集群控制的有效方法。
This paper researches the design of wind turbine generators tower foundation based on the project of Xuwen Yangqian wind power plant in Guangdong.
基于广东徐闻洋前风电场工程,对风力发电机组塔架基础设计进行研究。
Wind turbine generators have the biggest influence on grid frequency when the generators trip and exit the power grid at rated active output power.
当风力发电机组在额定输出有功功率跳闸退出电网时,对电网频率的影响最大;
According to this distribution law of the wind speed in the farm, the power energy production of the wind farm per year can be forecasted accurately by choosing right wind turbine generators.
根据此分布了解风电场的风速特性,通过选择适当的风力发电机组,可以比较准确地预测风电场年输出电能。
And then wind speed, wind generators and wind farm are modeled. Wind generator model includes wind turbine model, transferring structure model and asynchronous generator model.
其次建立了风速、风电机组及发电机组数学模型,其中风电机组的数学模型主要包括风轮机模型、传动机构模型和异步发电机模型。
Wind generator model includes wind turbine model, transferring structure model and asynchronous generator model. Response of wind generators to four kinds of wind speed is simulated and analyzed.
风电机组的数学模型主要包括风轮机模型、传动机构模型和异步发电机模型,仿真分析了风电机组对于风速四种分量的响应。
Wind generator model includes wind turbine model, transferring structure model and asynchronous generator model. Response of wind generators to four kinds of wind speed is simulated and analyzed.
风电机组的数学模型主要包括风轮机模型、传动机构模型和异步发电机模型,仿真分析了风电机组对于风速四种分量的响应。
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