length for flooded stability

简明释义

破舱稳性船长

英英释义

例句

1.The report emphasized the importance of determining the length for flooded stability in flood-prone regions.

报告强调了在易洪水地区确定洪水稳定性的长度的重要性。

2.In designing the dam, the team focused on the length for flooded stability to prevent any structural failures.

在设计大坝时，团队专注于洪水稳定性的长度以防止任何结构性故障。

3.The engineers calculated the length for flooded stability to ensure the bridge could withstand extreme weather conditions.

工程师计算了洪水稳定性的长度以确保桥梁能够承受极端天气条件。

4.The construction crew measured the length for flooded stability before starting the excavation work.

施工队在开始挖掘工作之前测量了洪水稳定性的长度。

5.Proper assessment of the length for flooded stability is crucial for residential areas near rivers.

对靠近河流的住宅区进行适当的洪水稳定性的长度评估至关重要。

作文

In the realm of civil engineering and environmental science, the concept of length for flooded stability plays a crucial role in ensuring the safety and sustainability of structures built in flood-prone areas. This term refers to the necessary dimensions and characteristics that a structure must possess to withstand the forces exerted by floodwaters without failing. Understanding this concept is essential for engineers and planners tasked with designing buildings, bridges, and other infrastructures that can endure extreme weather events and rising water levels.Flooding can occur due to various factors, including heavy rainfall, storm surges, and melting snow. As climate change continues to influence weather patterns, the frequency and intensity of floods are expected to increase, making it imperative for engineers to consider the length for flooded stability when designing new structures. The length of a foundation, the height of a building, and the materials used all contribute to how well a structure can resist flood damage.For instance, a building with a shorter foundation may be more susceptible to being undermined by rapidly flowing water, leading to structural failure. Conversely, a longer foundation designed with the length for flooded stability in mind can provide better support and anchoring against the forces of floodwaters. Engineers often use simulations and modeling techniques to determine the optimal dimensions and materials needed to achieve this stability.Moreover, the location of a structure is equally important. Buildings situated in low-lying areas or near rivers require careful consideration of the length for flooded stability. Elevating the structure above potential flood levels or incorporating flood-resistant designs can significantly enhance its resilience. In areas prone to flooding, regulations often dictate minimum elevation requirements to ensure safety and compliance with local building codes.In addition to structural design, landscape architecture also plays a vital role in achieving length for flooded stability. By strategically placing vegetation and creating natural barriers, planners can help mitigate the impact of floodwaters on structures. Green infrastructure, such as rain gardens and permeable pavements, can absorb excess water, reducing runoff and lowering the risk of flooding.Furthermore, community awareness and preparedness are essential components of flood management. Educating residents about the significance of the length for flooded stability can empower them to make informed decisions regarding property development and disaster preparedness. Communities can work together to implement measures that enhance overall resilience, such as creating floodplain restoration projects or investing in early warning systems.In conclusion, the concept of length for flooded stability is integral to modern engineering practices aimed at safeguarding structures against the increasing threat of flooding. By understanding the dynamics of floodwaters and integrating this knowledge into design and planning processes, engineers can create safer, more resilient communities. As we continue to face the challenges posed by climate change, prioritizing stability in the face of flooding will be crucial for the future of infrastructure and public safety.

在土木工程和环境科学领域，长度对于洪水稳定性的概念在确保在易洪水地区建造的结构的安全性和可持续性方面起着至关重要的作用。这个术语指的是一个结构必须具备的必要尺寸和特征，以承受洪水施加的力量而不发生故障。理解这一概念对于负责设计建筑、桥梁和其他基础设施以应对极端天气事件和水位上升的工程师和规划者来说至关重要。洪水可能由于多种因素引发，包括强降雨、风暴潮和融雪。随着气候变化继续影响天气模式，洪水的频率和强度预计将增加，这使得工程师在设计新结构时必须考虑到长度对于洪水稳定性。基础的长度、建筑物的高度以及使用的材料都影响着一个结构抵御洪水损害的能力。例如，基础较短的建筑物可能更容易受到快速流动水流的侵蚀，从而导致结构失效。相反，考虑到长度对于洪水稳定性而设计的较长基础可以提供更好的支撑和固定能力，以抵御洪水的力量。工程师通常使用模拟和建模技术来确定实现这种稳定性所需的最佳尺寸和材料。此外，结构的位置同样重要。位于低洼地区或靠近河流的建筑需要仔细考虑长度对于洪水稳定性。将结构抬高到潜在洪水水平之上或采用抗洪设计可以显著增强其韧性。在易洪水地区，法规通常规定最低的抬高要求，以确保安全并符合当地建筑规范。除了结构设计，景观建筑也在实现长度对于洪水稳定性方面发挥着重要作用。通过战略性地放置植被和创建自然屏障，规划者可以帮助减轻洪水对结构的影响。绿色基础设施，如雨水花园和透水铺装，可以吸收多余的水，减少径流，从而降低洪水风险。此外，社区意识和准备工作是洪水管理的重要组成部分。教育居民关于长度对于洪水稳定性的重要性，可以使他们在财产开发和灾害准备方面做出明智的决定。社区可以共同努力实施增强整体韧性的措施，例如创建洪泛区恢复项目或投资早期预警系统。总之，长度对于洪水稳定性的概念是现代工程实践中保护结构免受日益严重的洪水威胁的核心。通过理解洪水的动态并将这些知识融入设计和规划过程中，工程师可以创造出更安全、更具韧性的社区。随着我们继续面临气候变化带来的挑战，在洪水面前优先考虑稳定性对于基础设施和公众安全的未来至关重要。