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。
A limitation of green power generation is that wind farms and large-scale solar panels are easier to site in remote areas, leaving a challenge in taking energy to centres of population.
绿色发电的制约是风力发电场和大规模的太阳能电池板更方便设置于偏远地区,而将能源传输到人口密集地区比较困难。
Based on the proposed model, total transfer capability (TTC) of power system containing large-scale wind farms is investigated under the constraint condition of static voltage stability.
利用这一模型,针对含有大型风电场的输电系统,对其静态电压稳定约束条件下的最大输电能力(TTC)展开研究。
We will need new technologies to mobilise large - scale solar power, wind power , and geothermal power.
我们需要新技术推动太阳能、风能和地热能的大规模使用。
Impact of large scale wind farm integration on power system transient stability is studied in this paper.
对大型风电场接入后的电力系统暂态稳定性进行了研究。
In a large-scale wind farm, interactions among the running wind turbines will affect the wind turbine power output and yield the wind energy loss.
大型风电场由于风机数量众多,各台运转的风机之间的相互干扰作用会影响风机的有功输出,从而造成风电场的风能损失。
Finally, it is described that the power electronics device will be applied widely in large-scale offshore wind farm in the future.
最后,描述了未来大容量海上风电场将更广泛应用电力电子装置。
To raise the market competition ability of wind power, the large scale of single fan machine is the one of important measures for reducing the cost of wind power generation.
为了提高风电的市场竞争力,风机单机的大型化是降低风力发电成本的重要途径之一。
Wind power energy in the new technology is one power generation technology which is one of the most mature, most large-scale development for commercial.
风力发电是新能源发电中技术最成熟、最具规模化开发条件和商业化发展前景的发电技术之一。
Wind power generation is always weather dependent and has the trend of being integrated to power systems as the form of large-scale wind farms, which influences on power systems.
风力发电依赖于气象条件,并逐渐以大型风电场的形式并入电网,给电网带来各种影响。
With the stand-alone wind turbine capacity of large-scale, variable pitch control, a kind of wind power generation technology, is being more and more attention for its efficiency and practicality.
随着风力发电机组单机容量的大型化,变桨距控制风力发电技术因其高效性和实用性正受到越来越多的重视。
The wind generation is a random, intermittent and uncontrollable energy source, the large-scale connection of wind farms with power grid has adverse effect on the safety of power system.
风力发电具有随机性、间歇性和不可控性的特点,大规模的风电并网会给电力系统的安全运行造成一定的影响。
Modern horizontal axis wind turbines of the "high-speed" type, as used in large scale power generation, typically include two or three propeller-style blades with a diameter of 100 meters or more.
“高速”型的现代水平轴风力涡轮机,如用于大规模发电的那种,一般包括两个或三个直径为100米或更大的螺旋桨式叶片。
At present, wind power is the most mature renewable energy source in technology and can be explored in large-scale development.
风力发电作为目前技术最成熟与最具规模开发的新能源,日益受到关注和重视。
At present, a project based on wind power in large scale grid-connected is ongoing.
目前,基于风力发电的大规模并网发电项目正在实施中。
At present, a project based on wind power in large scale grid-connected is ongoing.
目前,基于风力发电的大规模并网发电项目正在实施中。
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