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相关概念视频

Design Example: Analyzing Capacity Contours for Flood Risk Assessment01:17

Design Example: Analyzing Capacity Contours for Flood Risk Assessment

41
Flood risk assessment involves careful planning and analysis to ensure the safety of communities near water retention structures. Capacity contours are a vital tool in this process, as they illustrate the potential spread of water at specific levels in a given area. In the context of building a bund across a small valley, these contours play a critical role in evaluating the safety of nearby residential areas.In this example, the bund is intended to store stormwater in the valley. The engineers...
41
Applications of GIS: Disaster Management and Emergency Response01:29

Applications of GIS: Disaster Management and Emergency Response

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Geographic Information System (GIS) technology is essential for risk identification, action prioritization, and resource optimization in critical situations like flooding and earthquakes. By integrating spatial and demographic data, GIS provides a comprehensive framework for emergency response.GIS integrates data layers, like rainfall intensity, topography, elevation profiles, and river levels, to model high-risk flood zones. These layers assess areas susceptible to flooding based on their...
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Responses to Drought and Flooding02:41

Responses to Drought and Flooding

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Water plays a significant role in the life cycle of plants. However, insufficient or excess of water can be detrimental and pose a serious threat to plants.
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Frost Action on Concrete01:27

Frost Action on Concrete

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Concrete structures in cold climates, such as those along roadsides, can retain moisture. This moisture makes them susceptible to frost-related damage when temperatures fall below freezing. Adding moisture worsens the damage during temperature fluctuations, leading to repeated freezing and thawing. De-icing salts, spread over these structures to melt ice, add to the freeze-thaw cycle, and draw even more moisture into the concrete.
This freeze-thaw cycle primarily causes surface scaling, where...
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Conservation of Mass in Moving, Nondeforming Control Volume01:14

Conservation of Mass in Moving, Nondeforming Control Volume

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Stormwater detention basins are essential in managing runoff during heavy rainfall, particularly in urban areas where impervious surfaces increase the risk of flooding. Understanding the conservation of mass in these systems allows engineers to optimize basin performance, balancing inflow, outflow, and water storage.
In the context of a detention basin, the conservation of mass states that the total mass of water entering the basin must equal the mass leaving the basin plus any accumulation of...
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Habitat Fragmentation02:31

Habitat Fragmentation

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Habitat fragmentation describes the division of a more extensive, continuous habitat into smaller, discontinuous areas. Human activities such as land conversion, as well as slower geological processes leading to changes in the physical environment, are the two leading causes of habitat fragmentation. The fragmentation process typically follows the same steps: perforation, dissection, fragmentation, shrinkage, and attrition.
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相关实验视频

Updated: Jun 16, 2025

Design and Construction of an Urban Runoff Research Facility
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Design and Construction of an Urban Runoff Research Facility

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城市形式如何影响洪水.

Sarah K Balaian1, Brett F Sanders2,3, Mohammad Javad Abdolhosseini Qomi4,5

  • 1Department of Civil and Environmental Engineering, University of California, Irvine, Irvine, CA, USA.

Nature communications
|August 19, 2024
PubMed
概括
此摘要是机器生成的。

城市形式对洪水风险产生重大影响. 这项研究开发了一个理论,将城市复杂性 (如建筑布局和孔隙性) 与洪水深度联系起来,为城市洪水危险提供了一个全球模型.

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相关实验视频

Last Updated: Jun 16, 2025

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科学领域:

  • 城市水文学 城市水文学
  • 统计力学 统计力学
  • 地质物理学 地质物理学

背景情况:

  • 城市化和气候变化加剧了全球洪水.
  • 现有的防洪抗灾战略集中在结构上,忽视了城市形式的作用.
  • 了解城市形状对洪水度的影响至关重要.

研究的目的:

  • 调查城市形式复杂性和洪水危险度之间的关系.
  • 根据城市特征开发一个理论框架来量化洪水风险.
  • 创建一个全球适用的分析模型,用于邻里规模的洪水危险.

主要方法:

  • 统计力学的应用,以模拟城市洪水.
  • 发展一个平均流量理论,将洪水危险与城市形状参数 (地面斜率,孔径,默明顺序参数) 联系起来.
  • 引入有效的平均和弦长度,用于泛滥深度的普遍缩放.

主要成果:

  • 洪水深度与城市孔隙度和顺序参数线性变化,根据城市布局对称性而有所变化.
  • 用有效的平均和弦长度来推导洪水危险的普遍缩放定律.
  • 该模型成功地将城市形式和极端降雨量与城市中记录的洪水损失联系起来.

结论:

  • 城市形式是洪水危险强度的关键决定因素.
  • 开发的平均流量理论为全球评估城市洪水风险提供了一个新的分析工具.
  • 这项研究为设计更具抗洪能力的城市环境提供了见解.