wave impact force

简明释义

波浪冲击力

英英释义

例句

1.The wave impact force 波浪冲击力 can cause significant damage to ships during a storm.

在暴风雨期间，wave impact force 波浪冲击力可能对船只造成重大损害。

2.Understanding the wave impact force 波浪冲击力 is crucial for designing resilient marine infrastructure.

理解wave impact force 波浪冲击力对设计具有韧性的海洋基础设施至关重要。

3.The engineers conducted tests to measure the wave impact force 波浪冲击力 on the coastal structures.

工程师们进行了测试，以测量沿海结构上的wave impact force 波浪冲击力。

4.The design of breakwaters must account for the wave impact force 波浪冲击力 to ensure stability.

防波堤的设计必须考虑到wave impact force 波浪冲击力以确保稳定性。

5.Researchers are studying the effects of wave impact force 波浪冲击力 on underwater structures.

研究人员正在研究wave impact force 波浪冲击力对水下结构的影响。

作文

The study of marine engineering often involves understanding various forces that act on structures in coastal and offshore environments. One of the critical forces to consider is the wave impact force, which refers to the pressure exerted by waves as they collide with surfaces such as piers, breakwaters, and coastal buildings. The wave impact force can lead to significant structural damage if not properly accounted for in design and construction. Understanding this force is essential for engineers who aim to create resilient structures that can withstand the harsh conditions of the ocean.When waves approach the shore, they undergo a transformation due to the changing depth of the water. As waves break, they release energy that can result in a high-pressure impact on any structure in their path. This phenomenon is particularly pronounced during storms or extreme weather events when wave heights can reach alarming proportions. Consequently, the wave impact force becomes a vital factor in assessing the safety and longevity of coastal infrastructures.To quantify the wave impact force, engineers often use mathematical models and simulations. Various parameters, such as wave height, wave period, and water density, play a crucial role in determining the magnitude of the impact force. By analyzing these factors, engineers can predict how much force a structure will experience during different wave conditions. This predictive capability is essential for designing structures that can endure the dynamic nature of marine environments.In addition to the physical impact, the wave impact force also has implications for the surrounding ecosystem. Structures that are not designed to withstand these forces may fail, leading to debris and pollution in the water. This can disrupt local wildlife and damage habitats, highlighting the importance of responsible engineering practices that prioritize both human safety and environmental protection.Moreover, advancements in technology have led to improved methods for measuring and analyzing the wave impact force. High-tech sensors and monitoring systems can provide real-time data on wave conditions and structural responses. This information allows engineers to make informed decisions about maintenance and upgrades, ensuring that structures remain safe and effective over time.In conclusion, the wave impact force is a fundamental concept in marine engineering that requires careful consideration in the design and construction of coastal structures. By understanding the dynamics of this force, engineers can create safer, more durable infrastructures that can withstand the relentless power of the ocean. As we continue to explore and develop our coastlines, acknowledging the significance of the wave impact force will be crucial in safeguarding both human life and the natural environment.

海洋工程的研究通常涉及理解在沿海和海上环境中作用于结构的各种力量。其中一个关键的力量是wave impact force，它指的是波浪在撞击码头、护岸和海岸建筑物等表面时施加的压力。如果在设计和施工中没有正确考虑wave impact force，可能会导致显著的结构损坏。理解这一力量对于旨在创建能够抵御海洋恶劣条件的坚固结构的工程师至关重要。当波浪接近海岸时，由于水深的变化，它们会发生变形。当波浪破裂时，它们释放的能量可能会对其路径上的任何结构造成高压冲击。这种现象在风暴或极端天气事件期间尤为明显，此时波浪高度可能达到惊人的程度。因此，wave impact force成为评估沿海基础设施安全性和耐久性的一个重要因素。为了量化wave impact force，工程师通常使用数学模型和模拟。波高、波周期和水密度等各种参数在确定冲击力的大小方面起着至关重要的作用。通过分析这些因素，工程师可以预测在不同波浪条件下，结构将经历多少力量。这种预测能力对于设计能够承受海洋环境动态特性的结构至关重要。除了物理冲击外，wave impact force还对周围生态系统产生影响。未能设计以承受这些力量的结构可能会失效，从而导致水中的碎片和污染。这可能会破坏当地野生动物并损害栖息地，突显出负责任的工程实践的重要性，这些实践优先考虑人类安全和环境保护。此外，技术的进步使得测量和分析wave impact force的方法得到了改善。高科技传感器和监测系统可以提供实时波浪条件和结构反应的数据。这些信息使工程师能够就维护和升级做出明智的决策，确保结构在时间推移中保持安全和有效。总之，wave impact force是海洋工程中的一个基本概念，在沿海结构的设计和施工中需要仔细考虑。通过理解这种力量的动态特性，工程师可以创造出更安全、更耐用的基础设施，能够抵御海洋的无情力量。随着我们继续探索和开发沿海地区，承认wave impact force的重要性对于保护人类生命和自然环境至关重要。