wave-induced load
简明释义
波浪感生载荷
英英释义
例句
1.The design of offshore platforms must account for the wave-induced load 波浪引起的载荷 to ensure structural integrity.
海上平台的设计必须考虑<波浪引起的载荷>以确保结构的完整性。
2.The wave-induced load 波浪引起的载荷 plays a critical role in the stability analysis of floating wind turbines.
在浮动风力涡轮机的稳定性分析中,<波浪引起的载荷>起着关键作用。
3.The research focused on mitigating the impacts of wave-induced load 波浪引起的载荷 on marine structures.
研究集中在减轻<波浪引起的载荷>对海洋结构的影响。
4.To enhance safety, the team evaluated the effects of wave-induced load 波浪引起的载荷 on bridge designs.
为了提高安全性,团队评估了<波浪引起的载荷>对桥梁设计的影响。
5.Engineers conducted simulations to predict the wave-induced load 波浪引起的载荷 on the coastal structures.
工程师们进行了模拟,以预测沿海结构的<波浪引起的载荷>。
作文
Understanding the concept of wave-induced load is crucial in various fields, especially in marine engineering and coastal construction. The term refers to the forces exerted on structures due to the movement of ocean waves. These loads can significantly impact the design, stability, and longevity of marine structures such as oil platforms, piers, and breakwaters. When engineers design these structures, they must consider the dynamic nature of waves, which can vary in height, frequency, and direction. One of the primary reasons why wave-induced load is a critical factor is that waves can produce both vertical and horizontal forces on structures. For instance, during a storm, waves can rise dramatically, creating upward forces that can lift a structure off its foundations if not properly accounted for. Additionally, the force of waves crashing against a structure can lead to lateral forces that may cause bending or even failure if the design does not incorporate adequate resistance. To accurately predict the effects of wave-induced load, engineers use various mathematical models and simulations. These models take into account the wave height, period, and the characteristics of the structure itself. By analyzing these factors, engineers can determine the maximum expected loads and design accordingly. This process is essential to ensure that the structures can withstand extreme weather conditions and remain safe over time. Moreover, understanding wave-induced load is not only vital for new constructions but also for the maintenance and retrofitting of existing structures. Over time, structures may experience wear and tear due to continuous exposure to wave action. Regular assessments are necessary to evaluate whether a structure can still endure the loads imposed by waves. If it is found that the structure is at risk, modifications may be required, such as reinforcing materials or redesigning certain elements to enhance durability. In addition to engineering applications, the concept of wave-induced load also has implications in environmental studies. For example, researchers study how these loads affect coastal erosion and sediment transport. Understanding these interactions can help in developing strategies to protect coastlines and maintain ecosystems. Furthermore, advancements in technology have led to improved methods for measuring and predicting wave-induced load. Instruments such as wave buoys and remote sensing technologies provide real-time data on wave conditions, allowing for more accurate assessments of potential impacts on structures. This information is invaluable for decision-making processes in coastal management and engineering. In conclusion, the significance of wave-induced load cannot be overstated. It plays a fundamental role in the design and maintenance of marine structures, influences environmental dynamics, and shapes our approach to coastal management. As we continue to face challenges posed by climate change and rising sea levels, understanding and addressing wave-induced load will be essential in ensuring the safety and sustainability of coastal infrastructure. Therefore, it is imperative for professionals in relevant fields to prioritize this knowledge in their work.
理解wave-induced load的概念在多个领域中至关重要,尤其是在海洋工程和沿海建设中。这个术语指的是由于海洋波浪的运动对结构施加的力量。这些荷载会显著影响海洋结构(如石油平台、码头和防波堤)的设计、稳定性和耐久性。当工程师设计这些结构时,他们必须考虑波浪的动态特性,这些特性可以在高度、频率和方向上变化。wave-induced load成为关键因素的主要原因之一是波浪可以对结构施加垂直和水平的力量。例如,在风暴期间,波浪可能会剧烈上升,产生向上的力量,如果没有适当考虑,这可能会将结构从基础上抬起。此外,波浪撞击结构时产生的力量可能导致侧向力,如果设计没有包含足够的抗力,可能会导致弯曲甚至失败。为了准确预测wave-induced load的影响,工程师使用各种数学模型和模拟。这些模型考虑了波浪的高度、周期和结构本身的特性。通过分析这些因素,工程师可以确定最大预期荷载并相应设计。这一过程对于确保结构能够承受极端天气条件并保持安全至关重要。此外,理解wave-induced load不仅对新建工程至关重要,而且对现有结构的维护和改造也同样重要。随着时间的推移,结构可能由于持续暴露于波浪作用而经历磨损和撕裂。定期评估是必要的,以评估结构是否仍然能够承受波浪施加的荷载。如果发现结构存在风险,可能需要进行修改,例如加固材料或重新设计某些元素以增强耐久性。除了工程应用外,wave-induced load的概念在环境研究中也有影响。例如,研究人员研究这些荷载如何影响沿海侵蚀和沉积物运输。理解这些相互作用可以帮助制定保护海岸线和维持生态系统的策略。此外,技术的进步使得测量和预测wave-induced load的方法得到了改善。波浪浮标和遥感技术等仪器提供了有关波浪条件的实时数据,从而允许对结构潜在影响的更准确评估。这些信息对于沿海管理和工程决策过程至关重要。总之,wave-induced load的重要性不容小觑。它在海洋结构的设计和维护中发挥着根本性作用,影响环境动态,并塑造我们对沿海管理的看法。随着我们继续面临气候变化和海平面上升带来的挑战,理解和解决wave-induced load将对确保沿海基础设施的安全和可持续性至关重要。因此,相关领域的专业人士必须优先考虑这一知识。
