wave-approach angle

简明释义

迎浪角

英英释义

例句

1.Sailors often discuss the wave-approach angle to optimize their sailing routes.

水手们常常讨论波浪接近角以优化他们的航行路线。

2.The pilot adjusted the aircraft's trajectory to achieve the optimal wave-approach angle for landing.

飞行员调整了飞机的轨迹，以实现最佳的波浪接近角以便着陆。

3.The wave-approach angle is crucial for determining how waves will interact with the shoreline.

对于确定波浪如何与海岸线相互作用，波浪接近角是至关重要的。

4.Engineers must calculate the wave-approach angle when designing coastal structures to minimize erosion.

工程师在设计海岸结构时必须计算波浪接近角以最小化侵蚀。

5.In surfing, understanding the wave-approach angle can significantly improve your chances of catching a good wave.

在冲浪中，理解波浪接近角可以显著提高你抓住好浪的机会。

作文

Understanding the concept of wave-approach angle is crucial in various fields, particularly in oceanography and engineering. The wave-approach angle refers to the angle at which ocean waves approach a shoreline or a structure, such as a pier or a breakwater. This angle significantly affects how waves interact with these structures, influencing both design and safety considerations.In oceanography, the wave-approach angle plays a vital role in predicting wave behavior as they near the coast. Waves do not approach the shore in a straight line; instead, they often arrive at an angle due to the influence of wind direction, current patterns, and the shape of the seabed. Understanding this angle helps scientists and engineers forecast how waves will break and dissipate energy when they hit the shore. This information is essential for coastal management, erosion control, and the design of effective marine structures.For engineers, the wave-approach angle is a critical parameter when designing coastal structures. Structures like breakwaters, jetties, and seawalls must be designed to withstand the forces exerted by incoming waves. If the wave-approach angle is not accurately accounted for, the structure may suffer damage or fail altogether. Engineers use models and simulations to analyze different scenarios of wave approaches, allowing them to optimize designs that can withstand various angles of attack.Moreover, the wave-approach angle also influences sediment transport along the coastline. When waves hit the shore at an angle, they can create longshore currents that move sand and sediment down the beach. This process is essential for maintaining beach profiles and preventing erosion. By studying the wave-approach angle, researchers can better understand sediment dynamics and develop strategies to mitigate erosion, ensuring the preservation of natural habitats and recreational areas.In addition, the wave-approach angle has implications for navigation and safety in maritime operations. Vessels entering or leaving harbors must consider the angle of incoming waves to avoid capsizing or damaging their hulls. Pilots and captains are trained to assess the wave-approach angle and adjust their maneuvers accordingly, ensuring safe passage through turbulent waters.As climate change continues to impact sea levels and weather patterns, understanding the wave-approach angle becomes even more critical. Rising sea levels can alter the way waves approach the coast, potentially increasing the risk of flooding and erosion. Therefore, ongoing research into the wave-approach angle is necessary to adapt our coastal infrastructure and protect vulnerable areas.In conclusion, the wave-approach angle is a fundamental concept that intersects various disciplines, from oceanography to engineering and environmental science. Its implications reach far beyond academic interest; they affect real-world applications that ensure the safety and sustainability of our coastal regions. By continuing to study and understand this angle, we can better prepare for the challenges posed by our dynamic oceans and the impacts of climate change. Awareness and knowledge of the wave-approach angle will empower us to make informed decisions regarding coastal development, conservation, and disaster preparedness, ultimately leading to a more resilient future for coastal communities worldwide.

理解wave-approach angle这一概念在多个领域中至关重要，特别是在海洋学和工程学中。wave-approach angle指的是海浪接近海岸线或结构（如码头或防波堤）时所形成的角度。这个角度显著影响着波浪与这些结构的相互作用，从而影响设计和安全考虑。在海洋学中，wave-approach angle在预测波浪行为方面发挥着重要作用，尤其是当波浪临近海岸时。波浪并不是以直线方式接近海岸，而是由于风向、洋流模式和海床形状的影响，往往以一定的角度到达。理解这个角度有助于科学家和工程师预测波浪如何破碎以及在撞击岸边时如何消散能量。这些信息对于海岸管理、侵蚀控制以及有效海洋结构的设计至关重要。对于工程师而言，wave-approach angle是设计海岸结构时的一个关键参数。像防波堤、堤坝和海墙等结构必须设计得能够承受来自来潮波浪施加的力量。如果未能准确考虑wave-approach angle，结构可能会遭受损坏或完全失效。工程师使用模型和模拟来分析不同的波浪接近场景，从而优化能够承受各种攻击角度的设计。此外，wave-approach angle还影响着沿海岸线的沉积物运输。当波浪以角度撞击岸边时，它们可以产生沿岸流动，将沙子和沉积物沿海滩移动。这一过程对于维持海滩轮廓和防止侵蚀至关重要。通过研究wave-approach angle，研究人员可以更好地理解沉积物动力学，并制定减轻侵蚀的策略，确保自然栖息地和休闲区域的保护。此外，wave-approach angle对航行和海事操作中的安全性也有影响。进入或离开港口的船只必须考虑到来潮波浪的角度，以避免倾覆或损坏船体。飞行员和船长接受培训，以评估wave-approach angle并相应调整他们的操纵，确保在动荡水域中的安全通行。随着气候变化不断影响海平面和天气模式，理解wave-approach angle变得更加重要。海平面的上升可能会改变波浪接近海岸的方式，从而增加洪水和侵蚀的风险。因此，继续研究wave-approach angle是必要的，以适应我们的海岸基础设施并保护脆弱地区。总之，wave-approach angle是一个基本概念，交叉于多个学科，从海洋学到工程学和环境科学。它的影响远不止于学术兴趣；它们影响着确保我们海岸地区安全和可持续发展的实际应用。通过继续研究和理解这个角度，我们可以更好地应对动态海洋和气候变化带来的挑战。对wave-approach angle的意识和知识将使我们能够就海岸开发、保护和灾害准备做出明智的决策，最终为全球沿海社区创造一个更具韧性的未来。