aerogenerator

简明释义

英[ˈeərəʊˌdʒenəreɪtə(r)]美[eəroʊˈdʒenəreɪtər]

n. 风力发电机

英英释义

单词用法

同义词

反义词

例句

1.Salcedo says the method can be applied immediately: 'If the wind speed of one aerogenerator can be predicted, then we can estimate how much energy it will produce.

萨尔塞多说，该方法可立即应用，如果可以预测风速的一个风力，那么我们就可以估算它将会产生多少能量。

2.As a result, several sets of observations are obtained, which are then applied to Banks of neural networks to achieve a more accurate prediction of aerogenerator wind speeds.

其结果是，小组的意见得到了证实，然后应用到银行的神经网络中，以实现更精确的预测风力风速。

3.The invention discloses an aerogenerator, in particular relates to an openable false ogive of the aerogenerator, and belongs to the technical field of wind power generating equipment.

本发明公开了一种风力发电机，具体涉及一种风力发电机的可开启式整流罩，它属于风力发电设备技术领域。

4.The invention discloses an aerogenerator, in particular relates to an openable false ogive of the aerogenerator, and belongs to the technical field of wind power generating equipment.

本发明公开了一种风力发电机，具体涉及一种风力发电机的可开启式整流罩，它属于风力发电设备技术领域。

5.Each aerogenerator can produce enough electricity to power several homes.

每个aerogenerator可以产生足够的电力来为几户家庭供电。

6.Installing aerogenerators on rooftops can significantly reduce electricity bills.

在屋顶上安装aerogenerator可以显著降低电费。

7.Engineers are testing a new design for aerogenerators that can withstand extreme weather.

工程师们正在测试一种新设计的aerogenerator，可以抵御极端天气。

8.The city plans to invest in aerogenerators as part of its renewable energy strategy.

该市计划投资于aerogenerator，作为其可再生能源战略的一部分。

9.The new wind farm utilizes advanced aerogenerators to maximize energy output.

新的风电场利用先进的aerogenerator来最大化能源输出。

作文

In recent years, the demand for renewable energy sources has increased significantly due to the growing concerns about climate change and environmental degradation. Among various forms of renewable energy, wind power has emerged as one of the most promising solutions. At the heart of wind power technology lies the aerogenerator, a device that converts wind energy into electrical energy. This essay will explore the functionality, benefits, and future prospects of aerogenerators in the context of sustainable energy production.The aerogenerator operates on a simple principle: it harnesses the kinetic energy generated by wind movement. When wind flows over the blades of an aerogenerator, it causes them to rotate. This rotational motion is then converted into electrical energy through a generator connected to the rotor. The efficiency of an aerogenerator largely depends on its design, including the shape and size of the blades, the height of the tower, and the wind conditions in a given area.There are several advantages to using aerogenerators as a source of renewable energy. Firstly, they produce clean energy without emitting harmful pollutants, which helps reduce the carbon footprint associated with traditional fossil fuel-based power generation. Secondly, once installed, aerogenerators have low operational costs and can provide a continuous supply of energy as long as there is wind. Moreover, advancements in technology have led to the development of more efficient and reliable aerogenerators, making them increasingly viable for both small-scale and large-scale energy projects.However, the implementation of aerogenerators is not without challenges. One major concern is the variability of wind. Unlike solar energy, which can be harnessed during the day, wind energy can fluctuate significantly depending on weather conditions. This intermittency can make it difficult to rely solely on aerogenerators for a stable energy supply. To address this issue, energy storage solutions and a diversified energy mix are essential.Another challenge is the impact of aerogenerators on local wildlife and ecosystems. Birds and bats can be harmed by collisions with turbine blades, and the noise generated by aerogenerators can disturb nearby communities. Therefore, careful site selection and technological innovations aimed at minimizing these impacts are crucial for the sustainable development of wind energy.Looking ahead, the future of aerogenerators appears promising. With ongoing research and development, we can expect to see improvements in their efficiency and reductions in costs. Additionally, the integration of smart technology and artificial intelligence can optimize the operation of aerogenerators, enhancing their output and reliability. Governments around the world are also recognizing the importance of investing in renewable energy infrastructure, further driving the adoption of aerogenerators.In conclusion, aerogenerators play a vital role in the transition towards sustainable energy systems. Their ability to convert wind energy into electricity offers a clean and renewable alternative to fossil fuels. While there are challenges to overcome, the benefits of aerogenerators far outweigh the drawbacks. As we continue to innovate and improve this technology, aerogenerators will undoubtedly be at the forefront of the global effort to combat climate change and create a more sustainable future.

近年来，由于对气候变化和环境恶化的日益关注，可再生能源的需求显著增加。在各种可再生能源形式中，风能已成为最有前景的解决方案之一。在风能技术的核心是aerogenerator，一种将风能转化为电能的设备。本文将探讨aerogenerator在可持续能源生产中的功能、优势和未来前景。aerogenerator的工作原理很简单：它利用风运动产生的动能。当风流过aerogenerator的叶片时，会导致叶片旋转。这种旋转运动通过与转子连接的发电机转化为电能。aerogenerator的效率在很大程度上取决于其设计，包括叶片的形状和大小、塔的高度以及特定区域的风况。使用aerogenerator作为可再生能源来源有几个优点。首先，它们在发电过程中不会排放有害污染物，有助于减少与传统化石燃料发电相关的碳足迹。其次，一旦安装，aerogenerator的运营成本低，并且只要有风，就能提供持续的能源供应。此外，技术的进步导致了更高效和可靠的aerogenerator的开发，使其在小规模和大规模能源项目中越来越可行。然而，aerogenerator的实施并非没有挑战。一个主要问题是风的可变性。与白天可以利用的太阳能不同，风能可能会根据天气条件显著波动。这种间歇性使得单靠aerogenerator来提供稳定的能源供应变得困难。为了解决这个问题，能源存储解决方案和多样化的能源组合是必不可少的。另一个挑战是aerogenerator对当地野生动物和生态系统的影响。鸟类和蝙蝠可能会因与涡轮叶片碰撞而受到伤害，而aerogenerator产生的噪音可能会干扰附近社区。因此，谨慎的选址和旨在最小化这些影响的技术创新对于风能的可持续发展至关重要。展望未来，aerogenerator的前景看起来很乐观。随着研究和开发的持续进行，我们可以期待看到其效率的提高和成本的降低。此外，智能技术和人工智能的整合可以优化aerogenerator的运行，提高其输出和可靠性。世界各国政府也意识到投资可再生能源基础设施的重要性，进一步推动aerogenerator的采用。总之，aerogenerator在向可持续能源系统过渡中发挥着重要作用。它们将风能转化为电力的能力为化石燃料提供了一种清洁和可再生的替代方案。尽管面临挑战，但aerogenerator的好处远远超过缺点。随着我们继续创新和改进这一技术，aerogenerator无疑将在全球应对气候变化和创造更可持续未来的努力中处于前沿。