streamlined rudder

简明释义

流线型舵

英英释义

例句

1.In competitive sailing, a streamlined rudder can make a crucial difference in speed.

在竞争性帆船比赛中，流线型舵可以在速度上产生关键差异。

2.The streamlined rudder design minimizes turbulence in the water.

该流线型舵设计最小化了水中的湍流。

3.Using a streamlined rudder can significantly reduce drag and improve fuel efficiency.

使用流线型舵可以显著减少阻力，提高燃油效率。

4.The new design of the yacht features a streamlined rudder, which enhances its maneuverability.

这艘游艇的新设计采用了流线型舵，提高了其机动性。

5.The engineers tested various models, ultimately choosing a streamlined rudder for better performance.

工程师们测试了多种模型，最终选择了流线型舵以获得更好的性能。

作文

In the world of naval engineering, innovation is key to enhancing the performance of vessels. One of the significant advancements in this field is the design of the streamlined rudder, which has transformed how ships maneuver through water. A streamlined rudder (流线型舵) is designed to reduce drag and improve hydrodynamic efficiency, allowing vessels to travel faster and with greater control. This technology not only benefits large cargo ships but also enhances the performance of smaller recreational boats and yachts.The concept of a streamlined rudder can be understood by examining its shape and functionality. Traditional rudders often have a bulky design that creates resistance as the vessel moves through water. In contrast, a streamlined rudder features a more aerodynamic shape, which minimizes turbulence and allows water to flow smoothly around it. This design reduces the amount of energy required to steer the vessel, leading to improved fuel efficiency and reduced operational costs.Moreover, the implementation of a streamlined rudder can significantly enhance a ship's maneuverability. For instance, during sharp turns or in challenging weather conditions, a vessel equipped with a streamlined rudder can respond more quickly and accurately to the captain's commands. This responsiveness is crucial for ensuring the safety of the ship and its crew, particularly in crowded harbors or during rescue operations.Another advantage of the streamlined rudder is its contribution to environmental sustainability. As ships become more efficient in their movement, they consume less fuel, which translates to lower greenhouse gas emissions. In an era where environmental concerns are paramount, the adoption of technologies like the streamlined rudder is essential for the maritime industry to meet regulatory standards and public expectations regarding eco-friendliness.In addition to its practical benefits, the streamlined rudder represents a shift in how engineers approach maritime design. It encourages a focus on optimizing every component of a vessel for better overall performance. This philosophy extends beyond rudders to other parts of a ship, including hull designs, propulsion systems, and even onboard technology. By embracing a holistic approach to design, engineers can create vessels that are not only faster and more efficient but also safer and more environmentally friendly.As we look to the future, the role of the streamlined rudder in naval architecture will likely continue to evolve. With advancements in materials science and computational fluid dynamics, engineers are constantly finding new ways to enhance the design and functionality of rudders. Innovations such as smart rudders, which can adjust their shape based on real-time data about water conditions, may soon become commonplace.In conclusion, the streamlined rudder (流线型舵) is a prime example of how innovation in design can lead to improved performance in naval engineering. Its ability to reduce drag, enhance maneuverability, and contribute to environmental sustainability makes it an essential component of modern vessels. As the maritime industry continues to advance, the importance of technologies like the streamlined rudder will only grow, paving the way for a new era of efficient and eco-friendly shipping.

在海军工程的世界里，创新是提升船舶性能的关键。在这个领域，一个重要的进步就是流线型舵的设计，它改变了船只在水中的操控方式。流线型舵（streamlined rudder）旨在减少阻力并提高水动力效率，使船舶能够更快地航行并更好地控制。这项技术不仅有利于大型货船，还增强了小型休闲船和游艇的性能。流线型舵的概念可以通过研究其形状和功能来理解。传统的舵通常设计笨重，随着船只在水中移动会产生阻力。相比之下，流线型舵具有更具空气动力学的形状，可以最小化湍流，使水流平滑地绕过它。这种设计减少了操纵船舶所需的能量，从而提高了燃油效率并降低了运营成本。此外，流线型舵的实施可以显著增强船舶的机动性。例如，在急转弯或恶劣天气条件下，配备流线型舵的船舶可以更快、更准确地响应船长的指令。这种响应能力对于确保船舶及其船员的安全至关重要，尤其是在拥挤的港口或救援行动中。流线型舵的另一个优势是其对环境可持续性的贡献。随着船舶在运动中变得更加高效，它们消耗的燃料更少，这意味着温室气体排放降低。在环保问题日益重要的时代，采用流线型舵等技术对于海事行业满足监管标准和公众对生态友好的期望至关重要。除了实用益处外，流线型舵还代表了工程师如何看待海洋设计的转变。它鼓励关注优化船舶每个组件以实现更好的整体性能。这一理念不仅限于舵，还延伸到船体设计、推进系统甚至船上技术等其他部分。通过采取整体设计的方法，工程师可以创造出不仅更快、更高效，而且更安全、更环保的船舶。展望未来，流线型舵在海军建筑中的作用可能会继续发展。随着材料科学和计算流体动力学的进步，工程师们不断寻找增强舵的设计和功能的新方法。智能舵等创新，能够根据水文条件的实时数据调整形状，可能很快会成为常态。总之，流线型舵（streamlined rudder）是设计创新如何促进海军工程性能提升的典范。它减少阻力、增强机动性并为环境可持续性做出贡献，使其成为现代船舶的重要组成部分。随着海事行业的不断进步，流线型舵等技术的重要性只会增加，为高效和生态友好的航运开辟新纪元。