water load

简明释义

水负载

英英释义

Water load refers to the amount of water that a structure, such as a building or bridge, is designed to support or carry.

水荷载指的是结构(如建筑物或桥梁)设计用来支撑或承载的水的数量。

In hydrology, water load can also refer to the volume of water that is transported by a river or stream at any given time.

在水文学中,水荷载也可以指河流或溪流在任何给定时间运输的水量。

例句

1.Excessive water load 水荷载 can lead to structural damage in basements.

过多的水荷载 water load可能会导致地下室的结构损坏。

2.During the construction, we need to monitor the water load 水荷载 in the soil to prevent flooding.

在施工期间,我们需要监测土壤中的水荷载 water load以防止洪水。

3.The water load 水荷载 from the irrigation system must be accounted for in the design of the drainage.

灌溉系统的水荷载 water load必须在排水设计中考虑。

4.Before the rainy season, we assessed the water load 水荷载 on the dam's foundation.

在雨季之前,我们评估了大坝基础上的水荷载 water load

5.The engineer calculated the water load 水荷载 on the bridge to ensure it could withstand heavy rain.

工程师计算了桥上的水荷载 water load,以确保它能够承受大雨。

作文

Understanding the concept of water load is crucial in various fields, particularly in environmental science and civil engineering. The term water load refers to the amount of water that a structure, such as a dam or a building, can hold or support without risking failure. This concept is essential for ensuring safety and stability in construction and design. Engineers must calculate the water load accurately to prevent structural damage and to ensure that the infrastructure can withstand natural forces like heavy rainfall or flooding.In the context of hydrology, water load also pertains to the volume of water flowing through a specific area over time. This measurement is vital for managing water resources and for understanding the impact of water on ecosystems. For instance, rivers and lakes have a certain water load that affects the surrounding wildlife and plant life. If the water load exceeds the natural capacity of these bodies of water, it can lead to flooding, which poses risks to human life and property.Moreover, in agriculture, the concept of water load plays a significant role in irrigation practices. Farmers must consider the water load when planning their irrigation systems to ensure that crops receive adequate water without causing soil erosion or depletion of water resources. Understanding how much water the soil can hold is key to maintaining healthy crops and sustainable farming practices.The implications of water load extend beyond just physical structures and agricultural practices. In urban planning, city planners must take into account the water load when designing drainage systems to manage stormwater effectively. Poor management of water load can result in urban flooding, which disrupts daily life and can cause significant economic losses.Furthermore, climate change has made it even more important to understand and monitor water load. As weather patterns become increasingly unpredictable, the frequency and intensity of storms are rising. This change means that areas previously unaffected by flooding may now experience significant water load challenges. Communities must adapt their infrastructure to handle these new realities, making it essential to incorporate accurate water load assessments in future designs.In conclusion, the term water load encompasses a wide range of applications across different disciplines. Whether in construction, agriculture, environmental science, or urban planning, understanding water load is vital for sustainability and safety. As we face growing challenges related to climate change and population growth, our ability to manage and predict water load will play a crucial role in ensuring the resilience of our communities and ecosystems. By prioritizing the study and application of water load, we can work towards creating a more sustainable and secure future for all.

理解水负荷的概念在多个领域中至关重要,特别是在环境科学和土木工程领域。术语水负荷指的是结构(如大坝或建筑物)可以承受或支持的水量,而不至于发生失效。这个概念对于确保施工和设计的安全性和稳定性至关重要。工程师必须准确计算水负荷,以防止结构损坏,并确保基础设施能够承受自然力量,如强降雨或洪水。在水文学的背景下,水负荷还涉及特定区域内流动的水量。这一测量对于管理水资源和理解水对生态系统的影响至关重要。例如,河流和湖泊有一定的水负荷,这会影响周围的野生动物和植物生命。如果水负荷超过这些水体的自然容量,可能会导致洪水,从而对人类生命和财产构成风险。此外,在农业中,水负荷的概念在灌溉实践中也发挥着重要作用。农民在规划灌溉系统时必须考虑水负荷,以确保作物获得足够的水分,同时不会造成土壤侵蚀或水资源枯竭。了解土壤能保持多少水分是维持健康作物和可持续农业实践的关键。水负荷的影响不仅限于物理结构和农业实践。在城市规划中,城市规划者在设计排水系统以有效管理雨水时,必须考虑水负荷。对水负荷的管理不善可能导致城市洪水,这会干扰日常生活并可能造成重大经济损失。此外,气候变化使得理解和监测水负荷变得更加重要。随着天气模式变得越来越不可预测,暴风雨的频率和强度在上升。这一变化意味着以前未受洪水影响的地区现在可能面临显著的水负荷挑战。社区必须调整其基础设施以应对这些新现实,这使得在未来设计中纳入准确的水负荷评估变得至关重要。总之,术语水负荷涵盖了不同学科中的广泛应用。无论是在建筑、农业、环境科学还是城市规划中,理解水负荷对于可持续性和安全性至关重要。随着我们面临与气候变化和人口增长相关的日益严峻的挑战,我们管理和预测水负荷的能力将在确保我们社区和生态系统的韧性方面发挥关键作用。通过优先研究和应用水负荷,我们可以朝着为所有人创造一个更可持续和安全的未来努力。