wave making resistance

简明释义

兴波阻力

英英释义

例句

1.A streamlined design helps to decrease wave making resistance 波浪产生阻力 during navigation.

流线型设计有助于在航行过程中减少wave making resistance 波浪产生阻力。

2.Reducing wave making resistance 波浪产生阻力 can lead to significant fuel savings in shipping operations.

减少wave making resistance 波浪产生阻力可以在航运操作中带来显著的燃料节省。

3.The ship's hull was designed to minimize wave making resistance 波浪产生阻力, allowing it to move faster through the water.

这艘船的船体设计旨在最小化wave making resistance 波浪产生阻力，使其能更快地穿过水面。

4.The research focused on the factors affecting wave making resistance 波浪产生阻力 in high-speed boats.

研究集中在影响高速船舶的wave making resistance 波浪产生阻力的因素上。

5.Engineers often conduct tests to measure wave making resistance 波浪产生阻力 for new vessel designs.

工程师们通常会进行测试，以测量新船舶设计的wave making resistance 波浪产生阻力。

作文

In the field of naval architecture and marine engineering, understanding the concept of wave making resistance is crucial for designing efficient vessels. wave making resistance refers to the resistance experienced by a ship as it moves through water, which is primarily caused by the waves generated by its own motion. When a vessel travels, it displaces water, creating waves that propagate outward. These waves can generate significant drag, which in turn affects the ship's speed and fuel efficiency.The phenomenon of wave making resistance can be attributed to several factors, including the shape of the hull, the speed of the vessel, and the water depth. A well-designed hull can minimize this resistance by allowing the water to flow smoothly around it, reducing the energy required to maintain speed. This is why naval architects invest considerable time in computational fluid dynamics (CFD) simulations and model testing to optimize hull designs.Moreover, the speed of the vessel plays a critical role in determining the level of wave making resistance. As a ship accelerates, the amplitude and frequency of the waves it generates increase. At certain speeds, known as 'hull speed,' the wave resistance becomes particularly pronounced, leading to a significant increase in fuel consumption. This highlights the importance of speed management in maritime operations, where maintaining an optimal speed can lead to substantial cost savings.To mitigate the effects of wave making resistance, various strategies can be employed. One common approach is to use specialized hull forms, such as catamarans or trimarans, which have multiple hulls that reduce wave generation. Additionally, the use of advanced materials and technologies, such as air lubrication systems, can help decrease the friction between the vessel and the water, further reducing resistance.Understanding wave making resistance is not only essential for the design and operation of commercial vessels but also for military applications. For naval ships, reduced resistance translates into higher speeds and greater maneuverability, which are vital in combat situations. Consequently, the study of wave making resistance has implications for national security and defense strategies.In conclusion, wave making resistance is a fundamental concept in marine engineering that impacts the performance and efficiency of vessels. By comprehensively understanding this phenomenon, engineers can design ships that are not only faster and more fuel-efficient but also environmentally friendly. As the maritime industry continues to evolve, addressing challenges related to wave making resistance will remain a priority for researchers and practitioners alike, ensuring that our seas are navigated with greater efficiency and sustainability.

在海洋建筑和海洋工程领域，理解波浪产生阻力的概念对于设计高效的船舶至关重要。波浪产生阻力是指船只在水中移动时所经历的阻力，这主要是由于其自身运动产生的波浪造成的。当船只航行时，它会排开水，形成向外传播的波浪。这些波浪会产生显著的阻力，从而影响船只的速度和燃料效率。波浪产生阻力现象可以归因于多个因素，包括船体的形状、船只的速度和水深。设计良好的船体可以通过使水流平稳地绕过船体来最小化这种阻力，从而减少维持速度所需的能量。这就是为什么海军建筑师在计算流体动力学（CFD）模拟和模型测试中投入大量时间来优化船体设计。此外，船只的速度在确定波浪产生阻力的水平中起着关键作用。当船只加速时，它产生的波浪的振幅和频率都会增加。在某些速度下，称为“船体速度”，波浪阻力变得特别显著，导致燃料消耗的显著增加。这突显了在海事操作中速度管理的重要性，保持最佳速度可以带来可观的成本节省。为了减轻波浪产生阻力的影响，可以采用各种策略。一种常见的方法是使用专门的船体形式，例如双体船或三体船，这些船体具有多个船体，可减少波浪的产生。此外，使用先进的材料和技术，例如空气润滑系统，可以帮助减少船只与水之间的摩擦，进一步降低阻力。理解波浪产生阻力不仅对商用船舶的设计和操作至关重要，而且对军事应用也同样重要。对于海军舰艇来说，减少阻力意味着更高的速度和更大的机动性，这在战斗情况下至关重要。因此，波浪产生阻力的研究对国家安全和防御战略有着重要影响。总之，波浪产生阻力是海洋工程中的一个基本概念，影响着船舶的性能和效率。通过全面理解这一现象，工程师可以设计出不仅速度更快、燃料效率更高，而且环保的船舶。随着海事行业的不断发展，解决与波浪产生阻力相关的挑战将继续成为研究人员和从业者的优先事项，确保我们的海洋以更高的效率和可持续性进行航行。