flap-type rudder

简明释义

襟翼舵

英英释义

例句

1.The flap-type rudder 襟翼式舵 was installed to enhance the overall stability of the vessel.

安装flap-type rudder 襟翼式舵是为了增强船只的整体稳定性。

2.The ship's flap-type rudder 襟翼式舵 allows for better control during high-speed maneuvers.

该船的flap-type rudder 襟翼式舵在高速机动时提供了更好的控制。

3.Engineers are studying the effects of a flap-type rudder 襟翼式舵 on fuel efficiency in naval vessels.

工程师正在研究flap-type rudder 襟翼式舵对海军舰艇燃油效率的影响。

4.The new design features a more efficient flap-type rudder 襟翼式舵 that improves maneuverability in tight spaces.

新设计采用了更高效的flap-type rudder 襟翼式舵，提高了在狭小空间内的机动性。

5.During testing, the flap-type rudder 襟翼式舵 showed significant improvements in response time compared to traditional rudders.

在测试中，flap-type rudder 襟翼式舵的响应时间与传统舵相比显示出显著改善。

作文

The marine engineering field has seen significant advancements in recent years, particularly in the design and functionality of various components that enhance the performance of vessels. One such innovation is the flap-type rudder, which has revolutionized the way ships maneuver through water. Unlike traditional rudders that rely solely on their surface area to generate turning force, the flap-type rudder incorporates a movable flap that can change angle independently of the main rudder. This feature allows for more precise control and improved handling characteristics, especially at low speeds.The principle behind the flap-type rudder is relatively straightforward. By adjusting the angle of the flap, engineers can optimize the flow of water over the rudder's surface. When the flap is deflected downward, it increases lift and enhances the turning moment, allowing the vessel to turn more sharply. Conversely, when the flap is raised, it reduces lift, making the ship more stable during straight-line travel. This adaptability makes the flap-type rudder particularly advantageous in various maritime conditions, from calm seas to turbulent waters.Moreover, the flap-type rudder contributes to fuel efficiency. Traditional rudders often require a significant amount of power to achieve desired turning radii, especially in larger vessels. However, with the enhanced control provided by the flap-type rudder, ships can navigate with less resistance, thus reducing fuel consumption. This aspect is crucial for shipping companies looking to minimize operational costs while also adhering to environmental regulations aimed at reducing emissions.The applications of the flap-type rudder extend beyond commercial shipping. In naval vessels, where agility and quick maneuvering are paramount, the benefits of this technology are even more pronounced. The ability to execute rapid turns and maintain control during high-speed operations can be a decisive factor in naval engagements. As such, many modern warships are now equipped with flap-type rudders to enhance their combat capabilities.In conclusion, the flap-type rudder represents a significant leap forward in rudder technology. Its unique design allows for greater maneuverability, improved fuel efficiency, and enhanced performance across various types of vessels. As the maritime industry continues to evolve, the integration of advanced technologies like the flap-type rudder will undoubtedly play a vital role in shaping the future of marine transportation. Understanding the mechanics and advantages of such innovations is essential for anyone involved in marine engineering or maritime operations, as they pave the way for safer and more efficient navigation on the world's oceans.

海洋工程领域近年来取得了显著进展，特别是在各种组件的设计和功能方面，这些组件提高了船舶的性能。其中一种创新是舵型襟翼，它彻底改变了船只在水中的机动方式。与仅依靠其表面积产生转向力的传统舵不同，舵型襟翼结合了一个可以独立于主舵改变角度的可动襟翼。这一特性使得船舶能够更精确地控制和改善操控特性，尤其是在低速行驶时。舵型襟翼的原理相对简单。通过调整襟翼的角度，工程师可以优化水流在舵面上的流动。当襟翼向下偏转时，它增加了升力并增强了转向力矩，使船舶能够更急剧地转弯。相反，当襟翼抬起时，它减少了升力，使船舶在直线行驶时更加稳定。这种适应性使得舵型襟翼在各种海洋条件下， 从平静的海面到波涛汹涌的水域，尤其具有优势。此外，舵型襟翼有助于提高燃油效率。传统舵通常需要大量动力才能实现所需的转弯半径，尤其是在大型船舶中。然而，借助舵型襟翼提供的增强控制，船只可以以更少的阻力航行，从而减少燃油消耗。这一点对于希望降低运营成本的航运公司至关重要，同时也要遵守旨在减少排放的环境法规。舵型襟翼的应用不仅限于商业航运。在海军舰艇中，灵活性和快速机动至关重要，因此这种技术的优势更加明显。执行快速转弯和在高速操作中保持控制能力可能是海军交战中的决定性因素。因此，许多现代军舰现在配备了舵型襟翼以增强其作战能力。总之，舵型襟翼代表了舵技术的重大飞跃。其独特的设计允许更大的机动性、改善的燃油效率以及在各种类型的船舶上提升的性能。随着海洋产业的持续发展，像舵型襟翼这样的先进技术的整合无疑将在塑造未来海洋运输中发挥重要作用。理解这些创新的机制和优势对于任何参与海洋工程或海事操作的人都是必不可少的，因为它们为世界海洋的安全和高效导航铺平了道路。