flooding calculation

简明释义

可浸长度计算

英英释义

例句

1.The flooding calculation revealed that certain areas were at high risk of flooding during storms.

该洪水计算显示某些地区在暴风雨期间面临高风险洪水。

2.The flooding calculation helped identify the best locations for drainage systems.

该洪水计算帮助确定排水系统的最佳位置。

3.In urban planning, flooding calculation is essential to ensure buildings are constructed above flood levels.

在城市规划中，洪水计算是确保建筑物建造在洪水水平之上的关键。

4.Consultants used flooding calculation techniques to assess the vulnerability of the coastal region.

顾问使用洪水计算技术评估沿海地区的脆弱性。

5.The engineer performed a flooding calculation to determine the potential impact of heavy rainfall on the infrastructure.

工程师进行了洪水计算以确定强降雨对基础设施的潜在影响。

作文

In the realm of engineering and environmental science, the term flooding calculation refers to the process of estimating the potential extent and impact of flooding in a given area. This calculation is crucial for urban planning, disaster management, and infrastructure development. Flooding can result from various factors, including heavy rainfall, river overflow, storm surges, and even melting snow. Therefore, understanding the dynamics of flooding is essential to mitigate its effects on communities and ecosystems.To conduct a flooding calculation, engineers typically utilize advanced modeling techniques that take into account topography, land use, hydrology, and meteorological data. These models help predict how water will flow across landscapes during extreme weather events. For instance, floodplain mapping is one of the primary tools used in flooding calculation. It identifies areas that are at risk of inundation, allowing planners to implement appropriate measures to protect lives and property.Moreover, flooding calculation is not just about predicting where floods might occur; it also involves assessing the potential consequences of these events. This includes evaluating the economic impact, such as damage to infrastructure, loss of agricultural productivity, and the cost of emergency response. By estimating these factors, authorities can prioritize resources and develop effective mitigation strategies.In recent years, climate change has introduced new challenges to flooding calculation. As weather patterns become more unpredictable, the frequency and intensity of flooding events are increasing. This necessitates the need for continuous updates to flooding models and calculations. Engineers and scientists must collaborate to integrate real-time data and improve the accuracy of their predictions. For example, using satellite imagery and geographic information systems (GIS) can enhance the precision of flooding calculation by providing detailed information about land cover changes and water levels.Community engagement is also a vital aspect of effective flooding calculation. Local knowledge and experiences can provide valuable insights that enhance the accuracy of flood risk assessments. Engaging with residents helps identify historical flooding patterns and areas that may not be captured by models alone. This participatory approach ensures that the needs and concerns of the community are addressed in flood management plans.In conclusion, flooding calculation is a multifaceted process that plays a critical role in safeguarding communities from the devastating impacts of floods. By utilizing advanced modeling techniques, assessing potential consequences, adapting to climate change, and involving local communities, we can improve our preparedness for flooding events. As we continue to face the challenges posed by a changing climate, the importance of accurate and comprehensive flooding calculation cannot be overstated. It is an essential tool for creating resilient cities and protecting the environment for future generations.

在工程和环境科学领域，术语洪水计算指的是估算特定区域潜在洪水范围和影响的过程。这一计算对于城市规划、灾害管理和基础设施发展至关重要。洪水可能由多种因素引起，包括大雨、河流溢出、风暴潮甚至融雪。因此，理解洪水的动态对减轻其对社区和生态系统的影响至关重要。为了进行洪水计算，工程师通常利用先进的建模技术，这些技术考虑了地形、土地使用、水文和气象数据。这些模型有助于预测在极端天气事件中水将如何在地形上流动。例如，洪泛区绘图是进行洪水计算的主要工具之一。它识别出面临淹没风险的区域，使规划者能够实施适当的措施来保护生命和财产。此外，洪水计算不仅仅是预测洪水可能发生的地方；它还涉及评估这些事件的潜在后果。这包括评估经济影响，例如基础设施损坏、农业生产力损失和应急响应成本。通过估算这些因素，相关部门可以优先分配资源并制定有效的减缓策略。近年来，气候变化给洪水计算带来了新的挑战。随着天气模式变得更加不可预测，洪水事件的频率和强度正在增加。这就需要不断更新洪水模型和计算。工程师和科学家必须合作，整合实时数据，提高预测的准确性。例如，利用卫星图像和地理信息系统（GIS）可以通过提供详细的土地覆盖变化和水位信息来增强洪水计算的精确性。社区参与也是有效的洪水计算的重要方面。当地知识和经验可以提供有价值的见解，从而提高洪水风险评估的准确性。与居民互动有助于识别历史洪水模式和模型中可能未捕捉到的区域。这种参与式的方法确保了社区的需求和关切在洪水管理计划中得到解决。总之，洪水计算是一个多方面的过程，在保护社区免受洪水破坏性影响方面发挥着关键作用。通过利用先进的建模技术、评估潜在后果、适应气候变化和参与地方社区，我们可以提高对洪水事件的准备程度。随着我们继续面临气候变化带来的挑战，准确和全面的洪水计算的重要性不容低估。这是创建韧性城市和保护未来世代环境的必要工具。