turbines
简明释义
n. [动力]涡轮;[动力]涡轮机(turbine 的复数);[动力]汽轮机
英英释义
A turbine is a machine for producing continuous power in which a wheel or rotor is made to revolve by a fast-moving flow of water, steam, gas, or air. | 涡轮是一种用于产生连续动力的机器,其中一个轮子或转子通过快速流动的水、蒸汽、气体或空气使其旋转。 |
单词用法
汽轮机;蒸汽轮机;蒸汽透平 | |
燃气轮机;燃气涡轮 |
同义词
| 转子 | 风力涡轮机将风能转化为电能。 |
反义词
| 停滞 | The river is in a state of stagnation due to the lack of rainfall. | 由于缺乏降雨,河流处于停滞状态。 | |
| 平静 | 海面平静,没有波浪打扰水面。 |
例句
1.One site alone, the Pentland Firth, between Orkney and mainland Scotland, could produce 10% of the country's electricity with banks of turbines under the sea.
单是位于奥克尼和苏格兰大陆之间的彭特兰湾发电站,就可以利用海底涡轮机产生10%的全国发电量。
2.Locals initially fretted that the turbines would be too noisy.
当地人最初警告说,涡轮机将会产生过多噪音。
3.Newly designed giant gravel batteries could be the solution to the on-off nature of wind turbines and solar panels.
新设计的巨型砾石电池可以解决风力涡轮机和太阳能电池板的开关问题。
4.In Scotland, for example, wind turbines provide enough electricity to power 95 percent of homes.
例如,在苏格兰,风力涡轮机为95%的家庭提供充足的电力。
5.Wind turbines operate on a simple principle.
风力涡轮机的工作原理很简单。
6.These can cause vibration and damage the blades of the turbines.
这些(气泡)会引起振动并损坏涡轮机的叶片。
7.The engineer explained how the 涡轮机 operates under high pressure.
工程师解释了在高压下涡轮机的工作原理。
8.The company invested in research to improve the durability of its 涡轮机.
该公司投资于研究以提高其涡轮机的耐用性。
9.Hydroelectric power plants use 涡轮机 to convert the energy of flowing water into electricity.
水电站使用涡轮机将流动水的能量转化为电能。
10.New designs for 涡轮机 can increase efficiency by up to 20%.
新设计的涡轮机可以提高效率多达20%。
11.The wind farm consists of several large 涡轮机 that generate electricity from wind energy.
这个风电场由几个大型涡轮机组成,利用风能发电。
作文
The world is increasingly turning to renewable energy sources to combat climate change and reduce our reliance on fossil fuels. One of the most promising technologies in this sector is the use of turbines(涡轮机). These machines convert kinetic energy from wind or water into mechanical energy, which can then be transformed into electricity. Wind turbines(涡轮机) are particularly notable for their role in harnessing wind energy. They consist of large blades that rotate when wind passes over them, driving a generator that produces electricity. The efficiency and design of these turbines(涡轮机) have improved significantly over the past few decades, making them a viable option for large-scale energy production.In addition to wind turbines(涡轮机), we also have hydroelectric turbines(涡轮机) that operate in dams and rivers. These turbines(涡轮机) work by using the flow of water to turn their blades, generating electricity in a similar manner to wind turbines(涡轮机). Hydroelectric power is one of the oldest forms of renewable energy and continues to play a significant role in many countries' energy portfolios.The environmental benefits of using turbines(涡轮机) for energy production are substantial. Unlike fossil fuel-based power plants, which emit greenhouse gases and contribute to global warming, turbines(涡轮机) generate electricity without releasing harmful pollutants into the atmosphere. This makes them an essential component of strategies aimed at reducing carbon footprints and achieving sustainability goals.However, the deployment of turbines(涡轮机) is not without its challenges. For instance, the installation of wind turbines(涡轮机) can be met with opposition from local communities, often due to concerns about noise, visual impact, and effects on wildlife. Similarly, hydroelectric turbines(涡轮机) can disrupt local ecosystems and fish populations if not carefully managed. Therefore, it is crucial for developers and policymakers to engage with communities and conduct thorough environmental assessments before proceeding with new projects involving turbines(涡轮机).Furthermore, as technology advances, there is a growing interest in improving the efficiency and effectiveness of turbines(涡轮机). Research is being conducted to develop new materials and designs that can capture more energy, withstand harsher conditions, and minimize ecological impacts. Innovations like floating wind turbines(涡轮机) are being explored to harness offshore wind resources, which tend to be stronger and more consistent than those on land.In conclusion, turbines(涡轮机) represent a key technology in the transition towards a cleaner and more sustainable energy future. Their ability to convert natural forces into usable energy positions them as vital players in the global effort to mitigate climate change. As we continue to innovate and address the challenges associated with their implementation, turbines(涡轮机) will undoubtedly remain at the forefront of renewable energy solutions, paving the way for a greener planet.
世界正在越来越多地转向可再生能源,以应对气候变化并减少对化石燃料的依赖。在这个领域中,最有前景的技术之一是使用turbines(涡轮机)。这些机器将来自风或水的动能转化为机械能,然后可以转化为电力。风turbines(涡轮机)因其在利用风能方面的作用而特别引人注目。它们由大型叶片组成,当风通过它们时,叶片旋转,驱动发电机产生电力。这些turbines(涡轮机)的效率和设计在过去几十年中显著改善,使其成为大规模能源生产的可行选择。除了风turbines(涡轮机)之外,我们还有在水坝和河流中工作的水电turbines(涡轮机)。这些turbines(涡轮机)通过利用水流来转动叶片,以类似于风turbines(涡轮机)的方式发电。水电是最古老的可再生能源形式之一,并继续在许多国家的能源组合中发挥重要作用。使用turbines(涡轮机)进行能源生产的环境效益非常显著。与排放温室气体并助长全球变暖的化石燃料发电厂不同,turbines(涡轮机)在发电过程中不会向大气中释放有害污染物。这使它们成为减少碳足迹和实现可持续发展目标的战略中不可或缺的组成部分。然而,部署turbines(涡轮机)并非没有挑战。例如,风turbines(涡轮机)的安装可能会遭到当地社区的反对,通常是因为对噪音、视觉影响和对野生动物影响的担忧。同样,水电turbines(涡轮机)如果管理不当,可能会破坏当地生态系统和鱼类种群。因此,开发者和政策制定者在推进涉及turbines(涡轮机)的新项目之前,必须与社区进行沟通并进行彻底的环境评估。此外,随着技术的进步,人们越来越关注提高turbines(涡轮机)的效率和有效性。正在进行研究,以开发能够捕获更多能量、承受更恶劣条件并最小化生态影响的新材料和设计。像浮动风turbines(涡轮机)这样的创新正在被探索,以利用海上风资源,这些资源往往比陆地上的风更强大和更稳定。总之,turbines(涡轮机)代表了向更清洁、更可持续的能源未来过渡的关键技术。它们将自然力量转化为可用能源的能力使它们成为全球减缓气候变化努力中的重要角色。随着我们不断创新并应对与其实施相关的挑战,turbines(涡轮机)无疑将继续处于可再生能源解决方案的前沿,为更绿色的星球铺平道路。
