vertical axis propeller

简明释义

平旋推进器

英英释义

例句

1.The vertical axis propeller 垂直轴螺旋桨 design minimizes noise pollution in urban waterways.

这种垂直轴螺旋桨 vertical axis propeller 设计减少了城市水道中的噪音污染。

2.In our latest model, we integrated a vertical axis propeller 垂直轴螺旋桨 to improve overall performance.

在我们的最新型号中，我们集成了一个垂直轴螺旋桨 vertical axis propeller，以提高整体性能。

3.Engineers are researching the efficiency of vertical axis propellers 垂直轴螺旋桨 for use in wind turbines.

工程师们正在研究垂直轴螺旋桨 vertical axis propellers 在风力发电机中的效率。

4.The design of the boat features a vertical axis propeller 垂直轴螺旋桨 that enhances its maneuverability in tight spaces.

这艘船的设计采用了一个垂直轴螺旋桨 vertical axis propeller，提高了它在狭窄空间中的机动性。

5.The vertical axis propeller 垂直轴螺旋桨 allows for better thrust in reverse, making it ideal for docking.

这种垂直轴螺旋桨 vertical axis propeller 在倒退时提供更好的推力，非常适合停靠。

作文

The concept of a vertical axis propeller is becoming increasingly significant in the field of engineering, particularly in marine and aeronautical applications. Unlike traditional propellers that rotate around a horizontal axis, a vertical axis propeller operates by spinning vertically. This unique design offers several advantages, especially in terms of efficiency and versatility. One of the primary benefits of a vertical axis propeller is its ability to harness wind energy more effectively. In wind turbine technology, for instance, vertical axis designs allow for wind capture from any direction. This omnidirectional capability means that a vertical axis propeller can generate power without the need for complex yaw mechanisms that are required in horizontal axis turbines. As a result, they can be more efficient in turbulent wind conditions, making them ideal for urban environments where wind patterns can be unpredictable.In marine applications, a vertical axis propeller can offer improved maneuverability. Boats equipped with this type of propeller can achieve better performance in tight spaces and can change direction more rapidly than those using conventional propellers. The design also minimizes cavitation – a phenomenon that can cause damage to traditional propellers and reduce their efficiency. By reducing cavitation, a vertical axis propeller can enhance the longevity of the equipment and reduce maintenance costs.Moreover, the compact nature of a vertical axis propeller allows it to be integrated into various designs, including small crafts and larger vessels. This adaptability makes it a popular choice among engineers looking to optimize vessel design while maintaining performance standards. Additionally, the aesthetic appeal of a vertical axis propeller can be a selling point for modern craft, as it often presents a sleek and innovative appearance that attracts consumers.Another important aspect to consider is the environmental benefits associated with vertical axis propeller technology. By improving the efficiency of energy capture in both wind and water applications, these propellers contribute to the reduction of fossil fuel dependency. This is crucial in today’s context, where sustainability is at the forefront of engineering practices. Furthermore, the quiet operation of many vertical axis propeller designs minimizes noise pollution, which is an essential consideration in both marine and urban settings.In conclusion, the vertical axis propeller represents a significant advancement in propeller technology, offering numerous advantages over traditional designs. Its efficiency, maneuverability, and environmental benefits make it an attractive option for engineers and designers alike. As we continue to innovate and seek sustainable solutions for energy production and transportation, the role of the vertical axis propeller will undoubtedly become more prominent in future developments. Understanding and mastering this technology is essential for anyone involved in the fields of engineering and design, as it holds the key to creating more efficient and environmentally friendly systems.

“垂直轴螺旋桨”的概念在工程领域，尤其是在海洋和航空应用中变得越来越重要。与传统的围绕水平轴旋转的螺旋桨不同，“垂直轴螺旋桨”是通过垂直旋转来工作的。这种独特的设计提供了几个优势，特别是在效率和多功能性方面。“垂直轴螺旋桨”的主要好处之一是它能够更有效地利用风能。例如，在风力涡轮机技术中，垂直轴设计允许从任何方向捕获风。这种全向能力意味着“垂直轴螺旋桨”可以在没有复杂偏航机制的情况下发电，这些机制通常在水平轴涡轮机中需要。因此，它们在湍流风条件下可能更有效，使其成为城市环境中的理想选择，因为那里风的模式可能不可预测。在海洋应用中，“垂直轴螺旋桨”可以提供更好的机动性。配备这种类型螺旋桨的船只可以在狭小空间内实现更好的性能，并且比使用传统螺旋桨的船只快速改变方向。该设计还最小化了气蚀现象——这种现象可能会对传统螺旋桨造成损害并降低其效率。通过减少气蚀，“垂直轴螺旋桨”可以延长设备的使用寿命并降低维护成本。此外，“垂直轴螺旋桨”的紧凑设计使其能够融入各种设计中，包括小型船只和大型船只。这种适应性使其成为工程师在优化船舶设计时保持性能标准的热门选择。此外，“垂直轴螺旋桨”的美观外观对于现代船只来说可能也是一个卖点，因为它通常呈现出流线型和创新的外观，吸引消费者。另一个重要方面是与“垂直轴螺旋桨”技术相关的环境益处。通过提高风能和水能应用中的能量捕获效率，这些螺旋桨有助于减少对化石燃料的依赖。在当今可持续性处于工程实践前沿的背景下，这一点至关重要。此外，许多“垂直轴螺旋桨”设计的安静操作最小化了噪音污染，这是海洋和城市环境中都需要考虑的重要因素。总之，“垂直轴螺旋桨”代表了螺旋桨技术的重要进步，提供了比传统设计更多的优势。它的效率、机动性和环境益处使其成为工程师和设计师的理想选择。随着我们继续创新并寻求可持续的能源生产和运输解决方案，“垂直轴螺旋桨”的作用无疑将在未来的发展中变得更加突出。理解和掌握这一技术对于任何涉及工程和设计领域的人来说都是必不可少的，因为它是创造更高效和环保系统的关键。