transverse propeller

简明释义

横向推进器

英英释义

例句

1.The engineer suggested using a transverse propeller for better stability while docking.

工程师建议使用横向螺旋桨以提高停靠时的稳定性。

2.In high-speed boats, a transverse propeller can reduce cavitation and improve performance.

在高速船只中，横向螺旋桨可以减少气蚀并提高性能。

3.The new yacht features a state-of-the-art transverse propeller that enhances maneuverability in tight spaces.

这艘新游艇配备了最先进的横向螺旋桨，在狭小空间内增强了机动性。

4.During the test, the transverse propeller proved to be more efficient than traditional designs.

在测试中，横向螺旋桨的效率证明比传统设计更高。

5.The innovative design of the transverse propeller allows for greater thrust in reverse.

这种横向螺旋桨的创新设计允许在倒退时产生更大的推力。

作文

The concept of a transverse propeller refers to a type of propulsion system that is oriented perpendicular to the direction of motion. This innovative design is particularly significant in various applications, including marine vessels and aircraft. By understanding the mechanics and benefits of a transverse propeller (横向螺旋桨), we can appreciate its role in enhancing maneuverability and efficiency.In traditional propulsion systems, propellers are usually aligned with the direction of travel. However, the transverse propeller (横向螺旋桨) operates differently by providing thrust at a right angle to the vessel’s or aircraft's longitudinal axis. This unique orientation allows for greater control during navigation, especially in tight spaces or during complex maneuvers. For instance, ships equipped with transverse propellers (横向螺旋桨) can effectively pivot and change directions without needing to rely solely on rudders, which can be less effective at low speeds.One of the most notable advantages of using a transverse propeller (横向螺旋桨) is its ability to improve efficiency. In many cases, the thrust generated can be more directly utilized for lateral movement, reducing the energy wasted in traditional systems. This efficiency not only translates into lower fuel consumption but also contributes to reduced emissions, making it a more environmentally friendly option for modern transportation.Moreover, the application of transverse propellers (横向螺旋桨) is not limited to maritime vessels. In aviation, some aircraft designs incorporate this technology to enhance their performance during takeoff and landing phases. The ability to generate lift and thrust simultaneously can significantly shorten the distance required for these critical maneuvers, thereby improving overall flight safety.Another area where transverse propellers (横向螺旋桨) have shown promise is in the development of autonomous vehicles. As these vehicles navigate through urban environments, the need for precise control becomes paramount. Implementing transverse propellers (横向螺旋桨) can provide the agility required to navigate crowded streets and tight corners, thereby enhancing the functionality of these advanced technologies.In conclusion, the transverse propeller (横向螺旋桨) represents a significant advancement in propulsion technology. Its unique design offers enhanced maneuverability, improved efficiency, and broader applications across various modes of transport. As industries continue to innovate and seek out sustainable solutions, the adoption of transverse propellers (横向螺旋桨) may play a pivotal role in shaping the future of transportation. Understanding this technology not only highlights its current relevance but also opens the door to exploring further innovations that could emerge from its principles.

“横向螺旋桨”这一概念是指一种推进系统，其方向与运动方向垂直。这种创新设计在多种应用中具有特别重要的意义，包括海洋船舶和飞机。通过理解“横向螺旋桨”的机械原理和优势，我们可以欣赏它在提高机动性和效率方面的作用。在传统的推进系统中，螺旋桨通常与行进方向对齐。然而，“横向螺旋桨”则以不同的方式运行，它在船只或飞机的纵向轴线的直角方向提供推力。这种独特的方向使得在导航时能够获得更大的控制力，特别是在狭小空间或复杂机动过程中。例如，配备“横向螺旋桨”的船只能有效地旋转和改变方向，而不必完全依赖于舵，这在低速时可能效果不佳。使用“横向螺旋桨”的一个显著优势是其提高效率的能力。在许多情况下，产生的推力可以更直接用于侧向移动，从而减少传统系统中浪费的能量。这种效率不仅转化为较低的燃料消耗，还减少了排放，使其成为现代交通运输中更环保的选择。此外，“横向螺旋桨”的应用并不限于海洋船舶。在航空领域，一些飞机设计采用这种技术，以增强其在起飞和着陆阶段的性能。能够同时产生升力和推力，可以显著缩短这些关键机动所需的距离，从而提高整体飞行安全性。“横向螺旋桨”在自主车辆的发展中也显示出潜力。随着这些车辆在城市环境中导航，对精确控制的需求变得至关重要。实施“横向螺旋桨”可以提供所需的灵活性，以在拥挤的街道和狭窄的拐角处导航，从而增强这些先进技术的功能。总之，“横向螺旋桨”代表了推进技术的一项重大进步。其独特的设计提供了增强的机动性、改善的效率以及在各种交通模式中的更广泛应用。随着各行业继续创新并寻求可持续解决方案，“横向螺旋桨”的采用可能在塑造未来交通运输方面发挥关键作用。理解这一技术不仅突显了其当前的相关性，还开启了探索基于其原理可能出现的进一步创新的大门。