wave pressure

简明释义

波浪压力

英英释义

例句

1.The research focused on how wave pressure 波浪压力 affects marine structures over time.

研究集中在wave pressure 波浪压力如何随着时间影响海洋结构。

2.The engineers calculated the wave pressure 波浪压力 on the coastal structures to ensure their stability during storms.

工程师计算了沿海结构上的wave pressure 波浪压力，以确保它们在风暴期间的稳定性。

3.The wave pressure 波浪压力 can cause significant erosion on shorelines if not properly managed.

如果没有得到妥善管理，wave pressure 波浪压力可能会对海岸线造成显著侵蚀。

4.During the simulation, the team measured the wave pressure 波浪压力 exerted on the breakwater.

在模拟过程中，团队测量了施加在防波堤上的wave pressure 波浪压力。

5.Understanding wave pressure 波浪压力 is crucial for designing safe offshore platforms.

理解wave pressure 波浪压力对于设计安全的海上平台至关重要。

作文

Understanding the concept of wave pressure is essential in various fields, particularly in engineering and oceanography. wave pressure refers to the force exerted by waves on structures or objects in their path. This phenomenon occurs as a result of the kinetic energy carried by moving water, which can have significant implications for coastal and marine structures. For instance, when waves crash against a seawall, the wave pressure can create immense forces that need to be calculated accurately to ensure the safety and stability of the structure.In coastal engineering, understanding wave pressure is crucial for designing resilient infrastructure. Engineers must consider factors such as wave height, frequency, and the angle at which waves approach a structure. These elements contribute to the overall wave pressure that will be exerted on the structure. Failure to account for these forces can lead to catastrophic failures, resulting in costly repairs and potential loss of life. Therefore, accurate modeling and simulation of wave pressure are vital in the design process.Moreover, wave pressure is not only a concern for man-made structures but also plays a role in natural environments. For example, the erosion of coastlines is often exacerbated by the forces of wave pressure. As waves continuously hit the shore, they can gradually wear away rock and soil, leading to changes in the landscape. Understanding how wave pressure contributes to erosion helps scientists and environmentalists develop strategies to protect vulnerable areas from further damage.In addition to engineering and environmental studies, wave pressure is also relevant in the field of maritime navigation. Ships and boats must be designed to withstand the forces generated by waves. The hulls of vessels are engineered to minimize the impact of wave pressure, ensuring that they remain stable and safe during rough seas. Understanding the dynamics of wave pressure can help naval architects create more efficient and safer vessels.Furthermore, the study of wave pressure extends to recreational activities such as surfing. Surfers must be aware of the conditions created by wave pressure to choose the best spots for riding waves. The energy of the waves, influenced by wave pressure, determines the quality of the surf. Thus, surfers often analyze wave patterns and conditions to maximize their experience on the water.In conclusion, wave pressure is a multifaceted concept that impacts various domains, including engineering, environmental science, maritime navigation, and recreational activities. A thorough understanding of wave pressure allows professionals and enthusiasts alike to make informed decisions and designs that account for the powerful forces of nature. As we continue to explore and interact with our oceans, the importance of recognizing and respecting wave pressure cannot be overstated. It is a crucial factor that shapes our coastal environments and influences our interactions with water bodies.

理解wave pressure这一概念在多个领域中至关重要，特别是在工程和海洋学中。wave pressure指的是波浪对其路径上结构或物体施加的力量。这种现象是由于移动水体所携带的动能造成的，这对沿海和海洋结构具有重要影响。例如，当波浪冲击海堤时，wave pressure可能会产生巨大的力量，需要准确计算以确保结构的安全和稳定。在沿海工程中，理解wave pressure对设计具有韧性的基础设施至关重要。工程师必须考虑诸如波高、频率以及波浪接触结构的角度等因素。这些元素共同影响着施加在结构上的总体wave pressure。如果不考虑这些力量，可能会导致灾难性的失败，造成高昂的修复费用和潜在的生命损失。因此，在设计过程中，准确建模和模拟wave pressure至关重要。此外，wave pressure不仅是人为结构的关注点，还在自然环境中发挥着作用。例如，海岸线的侵蚀往往因wave pressure的力量而加剧。当波浪不断冲击海岸时，它们可以逐渐磨损岩石和土壤，导致地形变化。理解wave pressure如何促成侵蚀有助于科学家和环境保护者制定保护脆弱地区免受进一步损害的策略。除了工程和环境研究，wave pressure在海事导航领域也很相关。船只和小艇必须设计成能够承受波浪产生的力量。船体的设计旨在最小化wave pressure的影响，确保它们在恶劣海况下保持稳定和安全。理解wave pressure的动态可以帮助海军建筑师创造更高效和更安全的船只。此外，wave pressure的研究还扩展到冲浪等娱乐活动。冲浪者必须了解由wave pressure造成的条件，以选择最佳的冲浪地点。波浪的能量，受到wave pressure的影响，决定了冲浪的质量。因此，冲浪者通常分析波浪模式和条件，以最大化他们在水中的体验。总之，wave pressure是一个多方面的概念，影响着多个领域，包括工程、环境科学、海事导航和娱乐活动。对wave pressure的透彻理解使专业人士和爱好者能够做出明智的决策和设计，从而考虑到自然界强大的力量。随着我们继续探索和与海洋互动，认识并尊重wave pressure的重要性不容忽视。它是塑造我们沿海环境和影响我们与水体互动的关键因素。