wave resistance

简明释义

兴波阻力

英英释义

例句

1.The new materials used in construction show improved wave resistance 抗波能力, making buildings safer during storms.

新材料在建筑中的应用展示了改善的wave resistance 抗波能力，使建筑在风暴期间更安全。

2.The architect emphasized the importance of wave resistance 抗波能力 in the design of the seaside resort.

建筑师强调了在海滨度假村设计中wave resistance 抗波能力的重要性。

3.Engineers are testing the wave resistance 抗波能力 of various coastal structures to ensure they can withstand high tides.

工程师正在测试各种沿海结构的wave resistance 抗波能力，以确保它们能够抵御高潮。

4.Research on wave resistance 抗波能力 is crucial for developing more resilient offshore platforms.

对wave resistance 抗波能力的研究对开发更具韧性的海上平台至关重要。

5.The design of the new boat incorporates advanced wave resistance 抗波能力 features for better performance in rough waters.

新船的设计融入了先进的wave resistance 抗波能力特性，以便在恶劣水域中表现更好。

作文

Understanding the concept of wave resistance is crucial in various fields, including physics, engineering, and even environmental science. wave resistance refers to the opposition that a body encounters when moving through a medium such as water or air, particularly when waves are present. This phenomenon can significantly affect the performance of ships, boats, and other marine vehicles, making it an essential aspect of naval architecture and design. To illustrate this, let’s consider a ship navigating through rough seas. As the vessel moves forward, it encounters waves that create resistance against its hull. This resistance is not only due to the physical structure of the ship but also the interaction between the ship and the water waves. The greater the height and frequency of the waves, the more wave resistance the ship experiences. Consequently, this affects the ship's speed, fuel efficiency, and overall maneuverability.In engineering terms, wave resistance can be quantified using various mathematical models and simulations. Engineers often use computational fluid dynamics (CFD) to analyze how different hull shapes perform under various wave conditions. By optimizing the design of a ship’s hull to minimize wave resistance, engineers can enhance its performance and reduce operational costs. This optimization process is vital for commercial shipping companies aiming to improve their vessels' efficiency and sustainability.Moreover, understanding wave resistance is not limited to maritime applications. In the field of environmental science, researchers study how waves interact with coastal structures and ecosystems. For instance, coastal erosion can be influenced by the wave resistance experienced by natural barriers like reefs and mangroves. These natural structures can dissipate wave energy, reducing the impact on shorelines and helping to protect coastal communities from flooding and erosion.In summary, wave resistance is a fundamental concept that plays a significant role in various disciplines. Its implications extend beyond just maritime navigation; it influences engineering designs, environmental conservation efforts, and even our understanding of natural phenomena. By studying and mastering the principles behind wave resistance, we can develop better technologies and strategies to navigate and protect our waters effectively. The ongoing research and advancements in this area will undoubtedly lead to more efficient marine vehicles and sustainable coastal management practices, ultimately benefiting both the economy and the environment.

理解波浪阻力的概念在物理学、工程学甚至环境科学等多个领域都至关重要。波浪阻力是指一个物体在通过水或空气等介质时，尤其是在存在波浪的情况下，所遇到的阻力。这种现象会显著影响船只、艇和其他海洋交通工具的性能，因此它是海军建筑和设计的重要方面。为了说明这一点，让我们考虑一艘船在恶劣海况下航行的情景。当船只向前移动时，它会遇到波浪，这些波浪对其船体产生阻力。这种阻力不仅源于船只的物理结构，还源于船只与水波之间的相互作用。波浪的高度和频率越大，船只所经历的波浪阻力就越大。因此，这会影响船只的速度、燃油效率和整体机动性。在工程术语中，波浪阻力可以通过各种数学模型和仿真进行量化。工程师通常使用计算流体动力学（CFD）来分析不同船体形状在各种波浪条件下的表现。通过优化船只的船体设计以最小化波浪阻力，工程师可以提高其性能并降低运营成本。这个优化过程对于希望提高船只效率和可持续性的商业航运公司至关重要。此外，理解波浪阻力并不限于海事应用。在环境科学领域，研究人员研究波浪如何与沿海结构和生态系统相互作用。例如，沿海侵蚀可能受到自然屏障（如珊瑚礁和红树林）所经历的波浪阻力的影响。这些自然结构可以消散波能，从而减少对海岸线的冲击，帮助保护沿海社区免受洪水和侵蚀。总之，波浪阻力是一个基本概念，在多个学科中发挥着重要作用。它的影响不仅限于海上航行；它还影响工程设计、环境保护工作，甚至影响我们对自然现象的理解。通过研究和掌握波浪阻力背后的原理，我们可以开发出更好的技术和策略，以有效地航行和保护我们的水域。该领域的持续研究和进展无疑将导致更高效的海洋交通工具和可持续的沿海管理实践，最终惠及经济和环境。