ship-wave interaction

简明释义

船-波相互作用

英英释义

例句

1.The study of ship-wave interaction 船舶与波浪相互作用 is crucial for improving vessel design.

对船舶与波浪相互作用的研究对于改善船舶设计至关重要。

2.Engineers must consider ship-wave interaction 船舶与波浪相互作用 when simulating the performance of a new ship.

工程师在模拟新船性能时必须考虑船舶与波浪相互作用。

3.Research on ship-wave interaction 船舶与波浪相互作用 can lead to safer navigation routes.

对船舶与波浪相互作用的研究可以导致更安全的航行路线。

4.Accurate models of ship-wave interaction 船舶与波浪相互作用 help in predicting wave patterns around vessels.

准确的船舶与波浪相互作用模型有助于预测船只周围的波浪模式。

5.The effects of ship-wave interaction 船舶与波浪相互作用 are significant in shallow water conditions.

在浅水条件下，船舶与波浪相互作用的影响是显著的。

作文

The study of ship-wave interaction is a crucial aspect in the field of naval architecture and marine engineering. Understanding how ships interact with waves not only helps in designing vessels that can withstand harsh sea conditions, but it also enhances the safety and efficiency of maritime operations. The ship-wave interaction refers to the complex dynamics that occur when a vessel moves through water, creating waves as it displaces the fluid around it. These interactions can significantly affect the ship's performance, stability, and fuel efficiency.When a ship sails through the ocean, it generates waves due to its hull shape and speed. The size and pattern of these waves depend on various factors, including the ship's dimensions, weight, and the speed at which it travels. As the ship moves forward, it creates a bow wave at the front and a stern wave at the back. This phenomenon can be observed in large ships such as cargo carriers, tankers, and cruise liners, where the displacement of water is substantial.The ship-wave interaction can lead to several effects that are vital for engineers to consider. One major effect is the energy loss due to wave formation. When a ship moves through the water, it requires energy to create waves, which can result in increased fuel consumption. By understanding and optimizing the ship-wave interaction, engineers can design hulls that minimize wave resistance, thereby improving fuel efficiency and reducing operational costs.Moreover, the ship-wave interaction can influence the comfort of passengers and crew on board. A ship that encounters large waves may experience more rolling and pitching, leading to discomfort and even seasickness among those aboard. Therefore, understanding these interactions allows designers to create vessels that provide a smoother ride, enhancing the overall experience for everyone on board.In addition to comfort, the ship-wave interaction plays a critical role in ensuring the safety of maritime operations. Ships must navigate through various sea conditions, and understanding how waves interact with the hull can help predict potential hazards. For instance, vessels may face increased risk of capsizing if they encounter steep waves at high speeds. By studying the ship-wave interaction, engineers can develop guidelines for safe navigation and operational limits under different sea states.Furthermore, the environmental impact of ship-wave interaction cannot be overlooked. As ships create waves, they can contribute to coastal erosion and disturb marine ecosystems. By optimizing designs to reduce wave generation, it is possible to minimize these impacts and promote more sustainable maritime practices.In conclusion, the study of ship-wave interaction is essential for advancing naval architecture and marine engineering. It encompasses various aspects, including fuel efficiency, passenger comfort, safety, and environmental sustainability. As the maritime industry continues to evolve, a deeper understanding of ship-wave interaction will be vital in developing innovative solutions that address the challenges faced by modern shipping. Ultimately, this knowledge will contribute to safer, more efficient, and environmentally friendly maritime operations, benefiting both the industry and the planet.

对船舶与波浪相互作用的研究是海军建筑和海洋工程领域的重要方面。理解船舶如何与波浪相互作用，不仅有助于设计能够承受恶劣海况的船只，而且还增强了海事操作的安全性和效率。船舶与波浪相互作用是指当船只在水中移动时，由于周围流体的位移而产生的复杂动态。这些相互作用会显著影响船舶的性能、稳定性和燃油效率。当一艘船在海洋中航行时，由于其船体形状和速度，会产生波浪。这些波浪的大小和形状取决于多个因素，包括船舶的尺寸、重量以及航行速度。随着船只向前移动，船头会形成一个波浪，而船尾则会形成另一个波浪。这种现象可以在大型船舶如货轮、油轮和游轮中观察到，因为它们对水的位移是巨大的。船舶与波浪相互作用可能导致一些工程师需要考虑的重要影响。其中一个主要影响是由于波浪形成而造成的能量损失。当船只在水中移动时，它需要能量来产生波浪，这可能导致燃料消耗增加。通过理解和优化船舶与波浪相互作用，工程师可以设计出减少波浪阻力的船体，从而提高燃油效率并降低运营成本。此外，船舶与波浪相互作用还会影响船上乘客和船员的舒适度。一艘遇到大波浪的船可能会经历更多的横摇和纵摇，导致船上人员的不适甚至晕船。因此，理解这些相互作用使设计师能够创造出提供更平稳航行的船舶，从而增强每个人的整体体验。除了舒适性，船舶与波浪相互作用在确保海事操作安全方面也起着关键作用。船舶必须在各种海况下航行，理解波浪如何与船体相互作用可以帮助预测潜在危险。例如，如果船只以高速遇到陡峭的波浪，可能面临更高的倾覆风险。通过研究船舶与波浪相互作用，工程师可以制定安全导航和不同海况下操作限制的指导方针。此外，船舶与波浪相互作用的环境影响也不容忽视。船舶产生的波浪可能会导致沿海侵蚀并扰动海洋生态系统。通过优化设计以减少波浪生成，可以尽量减少这些影响，并促进更可持续的海事实践。总之，对船舶与波浪相互作用的研究对于推进海军建筑和海洋工程至关重要。它涵盖了多个方面，包括燃油效率、乘客舒适度、安全性和环境可持续性。随着海事行业的不断发展，更深入地理解船舶与波浪相互作用将对开发应对现代航运面临的挑战的创新解决方案至关重要。最终，这一知识将有助于实现更安全、更高效和更环保的海事操作，造福行业和地球。