bank height

简明释义

1. 露天矿阶段高度; 2. 台阶高度;

英英释义

例句

1.During the construction, the workers measured the bank height to comply with safety regulations.

在施工期间，工人们测量了堤坝高度以遵守安全规定。

2.The bank height was increased after the last storm to protect against future flooding.

在上次风暴后，堤坝高度被提高以防止未来的洪水。

3.The engineer calculated the bank height to ensure the stability of the riverbank during the flood season.

工程师计算了堤坝高度以确保在洪水季节河岸的稳定性。

4.Adjusting the bank height is crucial for maintaining proper water levels in the reservoir.

调整堤坝高度对于维持水库的适当水位至关重要。

5.We need to monitor the bank height regularly to prevent erosion.

我们需要定期监测堤坝高度以防止侵蚀。

作文

The concept of bank height refers to the vertical measurement from the base of a riverbank or embankment to its highest point. Understanding bank height is crucial in various fields, including civil engineering, environmental science, and urban planning. It plays a significant role in flood management, erosion control, and habitat preservation. For instance, when engineers design levees or flood defenses, they must consider the bank height to ensure that these structures can withstand potential flooding events. If the bank height is underestimated, it could lead to catastrophic failures during extreme weather conditions.In environmental science, bank height also influences the ecosystem surrounding rivers and streams. The height of the bank can affect the types of vegetation that grow along the water's edge and the wildlife that inhabits these areas. Higher banks may create shaded environments that are suitable for certain species, while lower banks can allow for more diverse plant life that thrives in wetter conditions. Therefore, understanding bank height is essential for conservation efforts aimed at protecting aquatic habitats and promoting biodiversity.Urban planners must also take bank height into account when developing land near rivers and lakes. Building too close to a body of water without considering the bank height can lead to issues such as flooding and property damage. For example, if a new residential area is constructed near a river with a low bank height, residents may face frequent flooding during heavy rains. By analyzing the bank height, planners can make informed decisions about zoning, infrastructure development, and disaster preparedness.Moreover, the concept of bank height is not limited to natural bodies of water. It is also relevant in the context of artificial lakes and reservoirs. Engineers need to maintain appropriate bank height levels to ensure the stability of these structures. If the banks are too low, water may overflow and cause damage to surrounding areas. Conversely, excessively high banks could lead to increased pressure on the structure, potentially resulting in breaches or collapses.In conclusion, bank height is a vital measurement that impacts various aspects of our environment and infrastructure. Whether in the context of flood management, ecological conservation, or urban planning, understanding bank height helps us make better decisions that protect both people and nature. As climate change continues to pose challenges such as rising sea levels and extreme weather events, the importance of accurately assessing bank height will only grow. It is essential for professionals in multiple fields to collaborate and share knowledge to effectively manage and mitigate the risks associated with water bodies. By prioritizing the study of bank height, we can work towards creating safer and more sustainable communities.

“bank height”这一概念是指从河岸或堤坝的基底到其最高点的垂直测量。理解“bank height”在多个领域中至关重要，包括土木工程、环境科学和城市规划。它在洪水管理、侵蚀控制和栖息地保护中发挥着重要作用。例如，当工程师设计堤坝或防洪设施时，必须考虑“bank height”，以确保这些结构能够抵御潜在的洪水事件。如果低估了“bank height”，在极端天气条件下可能导致灾难性的失败。在环境科学中，“bank height”也会影响河流和溪流周围的生态系统。岸的高度可以影响沿水边生长的植被类型以及栖息在这些区域的野生动物。较高的岸可能会形成适合某些物种的阴影环境，而较低的岸则可以允许更多适应潮湿条件的多样植物生长。因此，理解“bank height”对于旨在保护水生栖息地和促进生物多样性的保护工作至关重要。城市规划者在开发靠近河流和湖泊的土地时，也必须考虑“bank height”。如果在没有考虑“bank height”的情况下过于靠近水体建造，可能会导致洪水和财产损失等问题。例如，如果在一个岸高度较低的河流附近建设新的住宅区，居民在大雨期间可能会面临频繁的洪水。通过分析“bank height”，规划者可以对分区、基础设施开发和灾害准备做出明智的决策。此外，“bank height”的概念不仅限于自然水体。在人工湖和水库的背景下，它同样相关。工程师需要保持适当的“bank height”水平，以确保这些结构的稳定性。如果岸太低，水可能会溢出并对周围区域造成损害。相反，过高的岸可能会导致对结构的压力增加，可能导致破裂或倒塌。总之，“bank height”是一个重要的测量指标，影响着我们环境和基础设施的各个方面。无论是在洪水管理、生态保护还是城市规划的背景下，理解“bank height”都有助于我们做出更好的决策，以保护人类和自然。随着气候变化带来的海平面上升和极端天气事件等挑战的持续加剧，准确评估“bank height”的重要性只会增加。各个领域的专业人士必须合作并分享知识，以有效管理和减轻与水体相关的风险。通过优先研究“bank height”，我们可以朝着创建更安全和可持续的社区努力。