design water level

简明释义

设计水位

英英释义

例句

1.The design water level is critical for flood risk management in urban areas.

在城市区域，设计水位对于洪水风险管理至关重要。

2.The engineer calculated the design water level to ensure the dam's stability.

工程师计算了设计水位以确保大坝的稳定性。

3.We will monitor the actual water levels and compare them to the design water level regularly.

我们将定期监测实际水位，并与设计水位进行比较。

4.During the planning phase, we need to establish the design water level for the new reservoir.

在规划阶段，我们需要确定新水库的设计水位。

5.For this project, the design water level will be set at 100 meters above sea level.

对于这个项目，设计水位将设定在海平面上方100米。

作文

The concept of design water level is crucial in various engineering fields, particularly in civil and environmental engineering. It refers to the predetermined elevation that water is expected to reach in a given structure, such as a dam, reservoir, or flood control system. Understanding this level is essential for ensuring the safety and functionality of these structures. Engineers must carefully calculate the design water level based on historical data, hydrological studies, and climate predictions to mitigate risks associated with flooding and water management.In many projects, the design water level is influenced by several factors, including rainfall patterns, runoff characteristics, and the geographical features of the area. For instance, in a region prone to heavy rainfall, the design water level may need to be set higher to account for potential surges in water flow. This careful consideration helps prevent overflow and ensures that the infrastructure can handle extreme weather conditions.Moreover, the design water level plays a significant role in the design of spillways and other drainage systems. Engineers must ensure that these systems can effectively manage water levels without compromising the integrity of the structure. If the design water level is exceeded, it could lead to catastrophic failures, resulting in loss of life and property. Therefore, accurate modeling and simulations are often conducted during the planning stages to predict how water will behave under various conditions.In addition to safety concerns, the design water level also impacts the ecological balance of the surrounding environment. Many aquatic ecosystems depend on stable water levels to thrive. When the water level fluctuates beyond the design water level, it can disrupt habitats, affect fish populations, and alter the natural landscape. Thus, engineers must collaborate with environmental scientists to establish a design water level that supports both human needs and ecological health.Furthermore, the design water level is not static; it must be revisited and revised as new data becomes available. Climate change poses significant challenges to traditional water level predictions, as rising temperatures and changing precipitation patterns can lead to unexpected shifts in water behavior. Engineers and planners must remain flexible and adaptive, updating the design water level as necessary to reflect these changes.In conclusion, the design water level is a vital aspect of water management and infrastructure design. It requires a comprehensive understanding of hydrology, environmental science, and engineering principles. By accurately determining and monitoring the design water level, we can enhance the resilience of our communities against flooding and ensure the sustainability of our natural resources. As we face increasing environmental challenges, the importance of the design water level will only continue to grow, highlighting the need for ongoing research and innovation in this field.

“设计水位”的概念在各个工程领域中至关重要，特别是在土木和环境工程中。它指的是在特定结构（如大坝、水库或防洪系统）中水预计达到的预定高度。理解这个水位对于确保这些结构的安全性和功能性至关重要。工程师必须根据历史数据、水文研究和气候预测仔细计算“设计水位”，以减轻与洪水和水资源管理相关的风险。在许多项目中，“设计水位”受多个因素的影响，包括降雨模式、径流特征和该地区的地理特征。例如，在一个易发生强降雨的地区，“设计水位”可能需要设定得更高，以考虑潜在的水流激增。这种细致的考虑有助于防止溢出，并确保基础设施能够应对极端天气条件。此外，“设计水位”在溢洪道和其他排水系统的设计中也起着重要作用。工程师必须确保这些系统能够有效管理水位，而不危及结构的完整性。如果超过“设计水位”，可能导致灾难性的失败，造成生命和财产的损失。因此，在规划阶段，通常会进行准确的建模和模拟，以预测水在各种条件下的行为。除了安全问题外，“设计水位”还会影响周围环境的生态平衡。许多水生生态系统依赖稳定的水位来繁衍生息。当水位超出“设计水位”时，可能会破坏栖息地，影响鱼类种群，并改变自然景观。因此，工程师必须与环境科学家合作，建立一个既支持人类需求又维护生态健康的“设计水位”。此外，“设计水位”并不是静态的；随着新数据的出现，它必须被重新审视和修订。气候变化对传统水位预测带来了重大挑战，因为气温上升和降水模式变化可能导致水行为的意外变化。工程师和规划者必须保持灵活和适应性，根据需要更新“设计水位”，以反映这些变化。总之，“设计水位”是水资源管理和基础设施设计的重要方面。它需要对水文学、环境科学和工程原理的全面理解。通过准确确定和监测“设计水位”，我们可以增强社区抵御洪水的韧性，确保自然资源的可持续性。随着我们面临日益严峻的环境挑战，“设计水位”的重要性只会继续增长，这突显了在这一领域进行持续研究和创新的必要性。