concentrated wave load
简明释义
集中波浪载荷
英英释义
例句
1.During the testing phase, the team measured the response of the vessel to concentrated wave loads (集中波浪载荷).
在测试阶段,团队测量了船只对集中波浪载荷(集中波浪载荷)的响应。
2.The design of the offshore platform must account for the effects of a concentrated wave load (集中波浪载荷) on its structural integrity.
海上平台的设计必须考虑到对其结构完整性的影响,来自于集中波浪载荷(集中波浪载荷)。
3.In coastal construction, understanding concentrated wave loads (集中波浪载荷) is crucial for ensuring the durability of structures.
在沿海建筑中,理解集中波浪载荷(集中波浪载荷)对于确保结构的耐久性至关重要。
4.The research focused on the impact of concentrated wave loads (集中波浪载荷) on marine energy converters.
研究集中于集中波浪载荷(集中波浪载荷)对海洋能转换器的影响。
5.Engineers used simulations to predict how the concentrated wave load (集中波浪载荷) would affect the stability of the buoy.
工程师使用模拟来预测集中波浪载荷(集中波浪载荷)将如何影响浮标的稳定性。
作文
Understanding the concept of concentrated wave load is crucial in fields such as civil engineering, marine engineering, and offshore construction. A concentrated wave load refers to the force exerted by waves on a specific point or area of a structure, rather than being distributed evenly across the entire surface. This phenomenon can significantly impact the design and stability of structures exposed to marine environments. For instance, when designing offshore platforms, engineers must account for the potential effects of concentrated wave loads to ensure that these structures can withstand extreme weather conditions and wave actions.The significance of concentrated wave loads becomes evident when considering the mechanics of wave action. Waves can create varying pressures and forces depending on their size, speed, and direction. When a wave strikes a structure, it does not apply its force uniformly; instead, the energy is often focused on specific points, leading to what we call a concentrated wave load. This localized force can cause structural damage if not properly accounted for during the design phase.In practical applications, engineers utilize various computational methods and modeling techniques to predict the effects of concentrated wave loads. These methods help in simulating the behavior of waves and their interaction with structures. By understanding how concentrated wave loads behave, engineers can optimize the design of marine structures to enhance their resilience and longevity.Moreover, the implications of concentrated wave loads extend beyond just structural integrity. They also play a role in the safety of personnel working on or near these structures. For example, if an offshore platform experiences unanticipated concentrated wave loads, it could lead to dangerous conditions for workers, potentially resulting in accidents or injuries. Therefore, comprehensive risk assessments and safety protocols must be established to mitigate these risks.In conclusion, the concept of concentrated wave load is essential for anyone involved in the design and construction of marine structures. It requires a deep understanding of wave mechanics and the ability to predict how these forces will interact with various materials and designs. By prioritizing the study and application of concentrated wave loads, engineers can create safer, more durable structures that can withstand the challenges posed by the ever-changing marine environment. As climate change continues to affect sea levels and storm patterns, the importance of understanding concentrated wave loads will only increase, making it a critical area of focus for future engineering endeavors.
理解“集中波浪荷载”这一概念在土木工程、海洋工程和海上建筑等领域至关重要。“集中波浪荷载”指的是波浪对结构特定点或区域施加的力,而不是均匀分布在整个表面上。这种现象可能会显著影响暴露于海洋环境中的结构的设计和稳定性。例如,在设计海上平台时,工程师必须考虑“集中波浪荷载”的潜在影响,以确保这些结构能够抵御极端天气条件和波浪的作用。当考虑波浪作用的力学时,“集中波浪荷载”的重要性变得显而易见。波浪可以根据其大小、速度和方向产生不同的压力和力。当波浪撞击结构时,它不会均匀施加力;相反,能量通常集中在特定点,导致我们所称的“集中波浪荷载”。如果在设计阶段没有正确考虑这种局部力,就可能造成结构损坏。在实际应用中,工程师利用各种计算方法和建模技术来预测“集中波浪荷载”的影响。这些方法有助于模拟波浪的行为及其与结构的相互作用。通过了解“集中波浪荷载”的行为,工程师可以优化海洋结构的设计,以增强其韧性和耐久性。此外,“集中波浪荷载”的影响不仅限于结构完整性。它们还在安全性方面发挥着作用,尤其是对于在这些结构上或附近工作的人员。例如,如果一个海上平台遭遇意外的“集中波浪荷载”,可能会导致危险的工作条件,从而可能导致事故或伤害。因此,必须建立全面的风险评估和安全协议以降低这些风险。总之,“集中波浪荷载”这一概念对于参与海洋结构设计和施工的任何人来说都是至关重要的。它需要对波浪力学有深入的理解,并具备预测这些力如何与各种材料和设计相互作用的能力。通过优先研究和应用“集中波浪荷载”,工程师可以创建更安全、更耐用的结构,以抵御不断变化的海洋环境带来的挑战。随着气候变化继续影响海平面和风暴模式,理解“集中波浪荷载”的重要性只会增加,这使其成为未来工程工作中的关键关注领域。
