average relative discharge duration

简明释义

平均相对放电时间

英英释义

例句

1.The report highlighted the average relative discharge duration 平均相对排放持续时间 as a key metric for assessing system reliability.

报告强调了平均相对排放持续时间 average relative discharge duration作为评估系统可靠性的关键指标。

2.The average relative discharge duration 平均相对排放持续时间 in this experiment was longer than expected, indicating potential issues with the equipment.

在这次实验中，平均相对排放持续时间 average relative discharge duration比预期的要长，这表明设备可能存在问题。

3.We tracked the average relative discharge duration 平均相对排放持续时间 over several months to evaluate performance trends.

我们跟踪了几个月的平均相对排放持续时间 average relative discharge duration以评估性能趋势。

4.The study found that the average relative discharge duration 平均相对排放持续时间 for the new battery design was significantly lower than previous models.

研究发现，新电池设计的平均相对排放持续时间 average relative discharge duration明显低于以前的型号。

5.To improve efficiency, we need to analyze the average relative discharge duration 平均相对排放持续时间 of our current systems.

为了提高效率，我们需要分析我们当前系统的平均相对排放持续时间 average relative discharge duration。

作文

In the study of hydrology and water resource management, understanding various metrics related to water flow is crucial. One such important metric is the average relative discharge duration, which refers to the average time period during which a river or stream maintains a certain level of discharge relative to its overall flow patterns. This concept is vital for both environmental scientists and engineers who design systems for water management. The average relative discharge duration can provide insights into seasonal variations in water availability, helping to predict periods of drought or flood. By analyzing this data, researchers can develop strategies to mitigate the effects of climate change on water resources.The average relative discharge duration is typically calculated by examining historical discharge data from various points along a river. This involves measuring how long the discharge remains above or below specific thresholds over a given time frame. For instance, if a river usually has a high discharge during spring due to snowmelt, understanding the average relative discharge duration during this season can help in planning irrigation schedules for nearby agricultural land.Moreover, the average relative discharge duration is also significant for aquatic ecosystems. Many species depend on specific flow conditions for breeding and feeding. If the discharge duration is altered due to human activities or climate change, it could impact these species' survival. Therefore, monitoring this metric is essential for conservation efforts. Environmental agencies often use the average relative discharge duration to set regulations that protect water quality and habitat conditions.In urban areas, understanding the average relative discharge duration can influence infrastructure development. Cities need to manage stormwater effectively to prevent flooding. By knowing how long heavy rainfall typically leads to increased discharge, city planners can design drainage systems that accommodate these changes. This proactive approach can save communities from the devastating impacts of floods.Furthermore, the average relative discharge duration can play a role in water allocation among different users. In regions where water is a scarce resource, understanding this metric helps in making informed decisions about how much water can be allocated for agricultural, industrial, and domestic use without compromising the ecosystem.To conclude, the average relative discharge duration is a multifaceted concept that plays a critical role in water resource management. It not only aids in understanding the dynamics of river systems but also supports sustainable practices in agriculture, urban planning, and conservation. As we face increasing challenges related to climate change and population growth, the importance of accurately measuring and interpreting the average relative discharge duration will only continue to grow. By prioritizing research and data collection in this area, we can better prepare for future water management challenges, ensuring a balance between human needs and environmental health.

在水文学和水资源管理的研究中，理解与水流相关的各种指标至关重要。其中一个重要的指标是平均相对排放持续时间，它指的是河流或溪流保持某一排放水平的平均时间段，相对于其整体流动模式。这个概念对环境科学家和设计水管理系统的工程师来说至关重要。平均相对排放持续时间可以提供关于水资源季节性变化的见解，帮助预测干旱或洪水的时期。通过分析这些数据，研究人员可以制定减缓气候变化对水资源影响的策略。平均相对排放持续时间通常通过检查来自河流不同点的历史排放数据来计算。这涉及测量在特定时间框架内排放保持在某一阈值以上或以下的时间。例如，如果一条河流通常在春季由于融雪而有高排放，了解该季节的平均相对排放持续时间可以帮助计划附近农业用地的灌溉时间表。此外，平均相对排放持续时间对于水生生态系统也很重要。许多物种依赖于特定的流动条件进行繁殖和觅食。如果由于人类活动或气候变化而改变排放持续时间，可能会影响这些物种的生存。因此，监测这一指标对于保护工作至关重要。环境机构经常使用平均相对排放持续时间来设定保护水质和栖息地条件的法规。在城市地区，理解平均相对排放持续时间可以影响基础设施的发展。城市需要有效管理雨水，以防止洪水。通过了解大雨通常会导致排放增加的持续时间，城市规划者可以设计能够适应这些变化的排水系统。这种前瞻性的方法可以拯救社区免受洪水的破坏性影响。此外，平均相对排放持续时间在不同用户之间的水分配中也可以发挥作用。在水资源稀缺的地区，了解这一指标有助于做出明智的决定，关于在不妨碍生态系统的情况下，可以为农业、工业和家庭使用分配多少水。总之，平均相对排放持续时间是一个多方面的概念，在水资源管理中扮演着关键角色。它不仅有助于理解河流系统的动态，还支持农业、城市规划和保护中的可持续实践。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，准确测量和解释平均相对排放持续时间的重要性只会继续增加。通过优先考虑这一领域的研究和数据收集，我们可以更好地为未来的水管理挑战做好准备，确保人类需求与环境健康之间的平衡。