floodability test

简明释义

不沉性试验

英英释义

例句

1.To ensure safety, the city mandated a floodability test for all new developments.

为了确保安全，市政府要求所有新开发项目进行防洪能力测试。

2.Before finalizing the construction plans, the team performed a floodability test on the site.

在最终确定施工计划之前，团队在现场进行了防洪能力测试。

3.The results of the floodability test indicated that the area was at high risk for flooding.

该防洪能力测试的结果表明该地区面临高洪水风险。

4.The floodability test showed that the drainage system needed significant improvements.

该防洪能力测试显示排水系统需要重大改进。

5.The engineers conducted a floodability test to assess the building's resilience against water damage.

工程师们进行了防洪能力测试以评估建筑物抵御水损害的能力。

作文

In recent years, the impact of climate change has become increasingly evident, leading to more frequent and severe flooding events around the world. As a result, it is crucial for engineers and urban planners to assess the flood risk in various areas. One effective method for evaluating this risk is through a procedure known as the floodability test, which helps determine how susceptible a region is to flooding. The floodability test (洪水能力测试) involves analyzing various factors such as topography, soil composition, and existing drainage systems. By understanding these elements, professionals can create better strategies for flood management and mitigation.The first step in conducting a floodability test is to gather data on the geographical features of the area in question. This includes mapping the elevation levels, identifying low-lying regions, and examining the natural waterways that may contribute to flooding. Additionally, soil type plays a significant role in how quickly water can be absorbed into the ground. For instance, sandy soils tend to allow for better drainage compared to clay soils, which can retain water and lead to increased flooding risks.Another critical aspect of the floodability test is assessing the current infrastructure in place. This includes evaluating the effectiveness of stormwater management systems, such as retention basins and drainage ditches. If these systems are inadequate or poorly maintained, they can exacerbate flooding conditions during heavy rainfall. Therefore, it is essential to identify any weaknesses in the infrastructure that could lead to catastrophic flooding events.Once the data has been collected and analyzed, the next phase is to simulate potential flooding scenarios. By using advanced modeling software, engineers can predict how different rainfall amounts and intensities would affect the area. This predictive analysis is vital for understanding the possible outcomes of extreme weather events, allowing for proactive measures to be taken before disasters occur.Moreover, the results of the floodability test can inform local governments and communities about necessary changes to zoning laws and building codes. For example, if a particular area is deemed highly susceptible to flooding, restrictions can be put in place to limit construction or encourage the development of green spaces that can absorb excess rainwater. Such measures not only protect property but also enhance the resilience of the community against future flooding events.In conclusion, the floodability test (洪水能力测试) is an essential tool in modern urban planning and environmental management. By thoroughly assessing the flood risks in a given area, stakeholders can implement effective strategies to mitigate the impacts of flooding. As climate change continues to pose significant challenges, it is imperative that we invest in research and technology that enhances our understanding of flood dynamics. Through diligent application of methods like the floodability test, we can create safer, more sustainable environments for future generations.

近年来，气候变化的影响愈发明显，导致全球范围内频繁且严重的洪水事件。因此，工程师和城市规划者评估各地区洪水风险变得至关重要。一种有效评估这种风险的方法是通过一种称为洪水能力测试的程序，该程序有助于确定一个地区对洪水的易感程度。洪水能力测试（floodability test）涉及分析地形、土壤成分和现有排水系统等各种因素。通过理解这些元素，专业人士可以制定更好的洪水管理和减缓策略。进行洪水能力测试的第一步是收集相关区域的地理特征数据。这包括绘制海拔水平图，识别低洼地区，以及检查可能导致洪水的自然水道。此外，土壤类型在水分被吸收到地下的速度中起着重要作用。例如，沙质土壤通常比粘土土壤更能有效排水，后者可能会滞留水分并导致洪水风险增加。洪水能力测试的另一个关键方面是评估现有基础设施的有效性。这包括评估雨水管理系统（如蓄水池和排水沟）的有效性。如果这些系统不足或维护不善，它们可能加剧强降雨期间的洪水状况。因此，识别基础设施中的任何薄弱环节对于防止灾难性洪水事件至关重要。一旦数据被收集和分析，下一阶段是模拟潜在的洪水场景。通过使用先进的建模软件，工程师可以预测不同降雨量和强度将如何影响该地区。这种预测分析对于理解极端天气事件的可能结果至关重要，使得在灾难发生之前采取主动措施成为可能。此外，洪水能力测试的结果可以通知地方政府和社区有关必要的区域划分法律和建筑规范的更改。例如，如果某个特定区域被认为对洪水高度易感，则可以实施限制措施以限制建设或鼓励开发可以吸收过量雨水的绿地。这些措施不仅保护财产，还增强了社区抵御未来洪水事件的韧性。总之，洪水能力测试（floodability test）是现代城市规划和环境管理的一个重要工具。通过全面评估给定区域的洪水风险，利益相关者可以实施有效的策略来减轻洪水的影响。随着气候变化继续带来重大挑战，我们必须投资于增强我们对洪水动态理解的研究和技术。通过勤奋应用如洪水能力测试的方法，我们可以为未来几代人创造更安全、更可持续的环境。