two-compartment floodability

简明释义

两舱浸水不沉性

英英释义

例句

1.The report highlighted the importance of two-compartment floodability 双舱洪水可淹没性 in urban planning.

报告强调了在城市规划中两舱洪水可淹没性的重要性。

2.Understanding the two-compartment floodability 双舱洪水可淹没性 is crucial for ensuring safety during extreme weather events.

理解两舱洪水可淹没性对于确保在极端天气事件中的安全至关重要。

3.The engineers conducted tests to evaluate the two-compartment floodability 双舱洪水可淹没性 of the new design.

工程师们进行了测试，以评估新设计的两舱洪水可淹没性。

4.To improve resilience, we need to assess the two-compartment floodability 双舱洪水可淹没性 of existing structures.

为了提高韧性，我们需要评估现有结构的两舱洪水可淹没性。

5.The study focused on the two-compartment floodability 双舱洪水可淹没性 of various materials used in construction.

这项研究集中于各种建筑材料的两舱洪水可淹没性。

作文

The concept of two-compartment floodability is essential in understanding how certain systems can manage water flow and flooding. In various engineering and environmental contexts, the term refers to the ability of a two-compartment system to handle floodwaters effectively. This can be particularly relevant in urban planning, where managing stormwater is crucial to prevent flooding in residential areas. By analyzing the two-compartment floodability, engineers can design drainage systems that minimize the risk of overflow and ensure that water is channeled appropriately.One of the key aspects of two-compartment floodability is its application in floodplain management. Floodplains are areas adjacent to rivers and streams that are prone to flooding. A two-compartment system might involve separating these areas into distinct zones, each with different capacities for handling excess water. For instance, one compartment could be designed to absorb water quickly, while the other could serve as an overflow area. This strategic division allows for better control over floodwaters, reducing the impact on surrounding communities.Moreover, the two-compartment floodability principle can also be applied in the design of reservoirs and retention basins. By creating compartments within these structures, engineers can optimize water storage and release. During heavy rainfall, one compartment can fill up while the other remains available for additional inflow. This dynamic approach not only helps in flood mitigation but also enhances water resource management, allowing for more efficient use of available water.In addition to engineering applications, understanding two-compartment floodability can also inform policy decisions related to land use and development. Policymakers can implement zoning regulations that take into account the floodability of different areas, ensuring that new developments do not exacerbate existing flooding problems. By promoting sustainable practices that align with the principles of two-compartment floodability, communities can better protect themselves from the adverse effects of flooding.Furthermore, public awareness and education about two-compartment floodability are vital for community resilience. Residents should understand how their local environment interacts with floodwaters and what measures can be taken to mitigate risks. Workshops and informational campaigns can help demystify the concept, empowering individuals to take proactive steps in safeguarding their properties.In conclusion, the notion of two-compartment floodability encompasses a range of strategies and considerations in flood management. From engineering solutions to policy-making and community engagement, this concept plays a pivotal role in creating resilient systems capable of withstanding the challenges posed by flooding. As climate change continues to affect weather patterns and increase the frequency of extreme weather events, understanding and applying two-compartment floodability will be crucial in protecting lives and property in vulnerable areas.

“两舱洪水能力”的概念对于理解某些系统如何管理水流和洪水至关重要。在各种工程和环境背景下，该术语指的是一个两舱系统有效处理洪水的能力。这在城市规划中尤其相关，因为管理雨水对于防止居民区洪水至关重要。通过分析两舱洪水能力，工程师可以设计排水系统，以最小化溢出的风险，并确保水被适当地引导。两舱洪水能力的一个关键方面是其在洪泛区管理中的应用。洪泛区是指靠近河流和溪流的地区，容易发生洪水。一个两舱系统可能涉及将这些区域分隔为不同的区域，每个区域具有处理多余水量的不同能力。例如，一个舱室可以设计为快速吸收水，而另一个舱室可以作为溢出区。这种战略性划分允许更好地控制洪水，减少对周围社区的影响。此外，两舱洪水能力原理还可以应用于水库和滞留池的设计。通过在这些结构内创建舱室，工程师可以优化水储存和释放。在强降雨期间，一个舱室可以填满，而另一个舱室保持可用于额外流入。这种动态方法不仅有助于洪水缓解，还增强了水资源管理，使可用水的使用更加高效。除了工程应用，理解两舱洪水能力还可以为与土地使用和开发相关的政策决策提供信息。政策制定者可以实施考虑不同区域洪水能力的分区法规，确保新开发项目不会加剧现有洪水问题。通过促进与两舱洪水能力原则一致的可持续实践，社区可以更好地保护自己免受洪水的不利影响。此外，提高公众对两舱洪水能力的认识和教育对于社区的韧性至关重要。居民应了解他们的本地环境如何与洪水相互作用，以及可以采取哪些措施来减轻风险。研讨会和宣传活动可以帮助揭开这一概念的神秘面纱，使个人能够采取主动措施保护他们的财产。总之，两舱洪水能力的概念涵盖了洪水管理中的一系列策略和考虑。从工程解决方案到政策制定和社区参与，这一概念在创建能够抵御洪水挑战的韧性系统中发挥着关键作用。随着气候变化继续影响天气模式并增加极端天气事件的频率，理解和应用两舱洪水能力将对保护脆弱地区的生命和财产至关重要。