flooding quantity

简明释义

进水量

英英释义

例句

1.The engineer calculated the flooding quantity to determine how much water would overflow during heavy rain.

工程师计算了淹水量以确定在大雨期间会有多少水溢出。

2.The flooding quantity was measured after the heavy rainfall to analyze its impact on the infrastructure.

在大雨后测量了淹水量以分析其对基础设施的影响。

3.During the storm, the local authorities monitored the flooding quantity to assess potential risks.

在风暴期间，当地当局监测淹水量以评估潜在风险。

4.Understanding the flooding quantity is crucial for designing effective drainage systems.

了解淹水量对于设计有效的排水系统至关重要。

5.The report indicated that the flooding quantity in the area exceeded safety limits, prompting emergency measures.

报告指出，该地区的淹水量超过了安全限值，促使采取紧急措施。

作文

In recent years, the term flooding quantity has gained significant attention in various fields, particularly in environmental science and civil engineering. The concept of flooding quantity refers to the volume of water that inundates a specific area during a flood event. Understanding this quantity is crucial for effective flood management and mitigation strategies. By analyzing the flooding quantity, experts can predict potential damage, assess risks, and develop appropriate responses to minimize the impact on communities and ecosystems.Floods are a natural phenomenon that can occur due to heavy rainfall, rapid snowmelt, or dam failures. When these events happen, they can lead to an overwhelming amount of water flowing into rivers, lakes, and urban areas. The flooding quantity determines how severe the flooding will be, influencing everything from infrastructure stability to emergency response protocols. For instance, a small increase in the flooding quantity can turn a manageable flood into a catastrophic event, leading to loss of life and property.To effectively measure the flooding quantity, scientists and engineers utilize various tools and techniques. Hydrological models simulate rainfall and runoff patterns, helping to estimate how much water will flow into a given area. Additionally, remote sensing technologies, such as satellite imagery, provide real-time data on water levels and flood extents. These advanced methods allow for a more accurate assessment of the flooding quantity, enabling better preparedness and response efforts.Moreover, understanding the flooding quantity is not only essential for immediate disaster response but also for long-term urban planning. Cities prone to flooding must incorporate this knowledge into their development strategies. For example, constructing levees, drainage systems, and retention basins can help manage excess water during heavy rains. By considering the flooding quantity in their designs, urban planners can create safer environments for residents and reduce the economic impact of floods.Education and community awareness also play vital roles in managing the flooding quantity. Local governments should inform residents about flood risks and encourage them to prepare emergency plans. By understanding their own vulnerability to flooding, communities can take proactive measures, such as elevating homes and creating emergency kits. This collective effort can significantly reduce the adverse effects of flooding.In conclusion, the concept of flooding quantity is integral to our understanding of flood dynamics and their implications. By accurately measuring and analyzing this quantity, we can enhance our preparedness for floods, protect lives and property, and promote sustainable urban development. As climate change continues to influence weather patterns, the importance of understanding flooding quantity will only grow, making it a critical area of study for future generations.

近年来，术语洪水量在各个领域，特别是在环境科学和土木工程中引起了广泛关注。洪水量的概念指的是在洪水事件中淹没特定区域的水量。理解这一数量对于有效的洪水管理和减缓策略至关重要。通过分析洪水量，专家可以预测潜在损害、评估风险并制定适当的应对措施，以最大限度地减少对社区和生态系统的影响。洪水是一种自然现象，可能由于强降雨、快速融雪或大坝溃坝而发生。当这些事件发生时，它们可能导致大量水流入河流、湖泊和城市地区。洪水量决定了洪水的严重程度，影响从基础设施稳定性到应急响应协议的方方面面。例如，洪水量的小幅增加可能会将可控的洪水变成灾难性事件，导致生命和财产的损失。为了有效测量洪水量，科学家和工程师利用各种工具和技术。水文模型模拟降雨和径流模式，帮助估计将有多少水流入特定区域。此外，遥感技术，如卫星图像，提供有关水位和洪水范围的实时数据。这些先进的方法使我们能够更准确地评估洪水量，从而增强准备和响应工作。此外，理解洪水量不仅对即时灾难响应至关重要，也对长期城市规划至关重要。易受洪水影响的城市必须将这一知识纳入其发展战略。例如，建设堤坝、排水系统和滞留池可以帮助在大雨期间管理多余的水。通过在设计中考虑洪水量，城市规划者可以为居民创造更安全的环境，减少洪水的经济影响。教育和社区意识也在管理洪水量中发挥着重要作用。地方政府应告知居民洪水风险，并鼓励他们制定应急计划。通过了解自己对洪水的脆弱性，社区可以采取主动措施，例如提高房屋和创建应急包。这种集体努力可以显著减少洪水的不利影响。总之，洪水量的概念对于我们理解洪水动态及其影响至关重要。通过准确测量和分析这一数量，我们可以增强对洪水的准备，保护生命和财产，促进可持续的城市发展。随着气候变化继续影响天气模式，理解洪水量的重要性只会增加，使其成为未来几代人研究的关键领域。