aggregate discharge

简明释义

1. 汇流; 2. 汇合流量; 3. 总流量;

英英释义

例句

1.Climate models often predict changes in aggregate discharge 综合排放 due to global warming effects.

气候模型通常预测由于全球变暖效应造成的综合排放变化。

2.Engineers calculated the aggregate discharge 综合排放 of the wastewater treatment plant to ensure compliance with environmental regulations.

工程师计算了污水处理厂的综合排放以确保符合环境法规。

3.The aggregate discharge 总排放量 from multiple tributaries contributed significantly to the river's flow.

多个支流的总排放量对河流的流量产生了显著影响。

4.The river's aggregate discharge 总排放量 was measured during the flood season to assess its impact on local ecosystems.

在洪水季节，河流的总排放量被测量，以评估其对当地生态系统的影响。

5.Monitoring the aggregate discharge 总排放量 of the groundwater helps in sustainable water resource management.

监测地下水的总排放量有助于可持续水资源管理。

作文

The concept of aggregate discharge is critical in understanding the overall performance and efficiency of various systems, particularly in the fields of hydrology, engineering, and environmental science. In simple terms, aggregate discharge refers to the total volume of fluid that flows through a specific point in a given time period. This measurement is essential for assessing water resources, managing stormwater, and designing infrastructure such as dams and drainage systems.To illustrate the importance of aggregate discharge, consider a river system. The aggregate discharge of a river can significantly fluctuate due to seasonal changes, precipitation, and human activities like dam construction or irrigation. Understanding these variations helps in predicting flood risks, ensuring adequate water supply for agricultural needs, and maintaining ecological balance within the river ecosystem.In engineering applications, aggregate discharge plays a crucial role in the design of hydraulic structures. Engineers must calculate the expected aggregate discharge to ensure that bridges, culverts, and other structures can withstand potential flooding scenarios. If the aggregate discharge exceeds the designed capacity of these structures, it could lead to catastrophic failures, resulting in loss of life and property.Furthermore, in the context of wastewater management, monitoring the aggregate discharge of sewage systems is vital for public health and environmental protection. By measuring the aggregate discharge of wastewater treatment plants, authorities can determine the effectiveness of treatment processes and ensure compliance with environmental regulations. An increase in aggregate discharge may indicate system overloads or leaks, prompting necessary interventions to mitigate pollution risks.In addition to its practical applications, the term aggregate discharge also has theoretical implications. Researchers study the aggregate discharge to develop models that predict water flow in natural and engineered systems. These models help in understanding complex interactions between different environmental factors, such as land use changes, climate variability, and hydrological cycles. By improving our understanding of aggregate discharge, scientists can better forecast water availability and inform sustainable management practices.In conclusion, the term aggregate discharge encapsulates a fundamental aspect of fluid dynamics that has far-reaching implications across multiple disciplines. Whether in managing natural water bodies, designing resilient infrastructure, or ensuring effective wastewater treatment, understanding aggregate discharge is essential for informed decision-making and sustainable resource management. As we continue to face challenges related to water scarcity and environmental degradation, the significance of accurately measuring and analyzing aggregate discharge will only grow, highlighting the need for continued research and innovation in this field.

“总排放量”这一概念在理解各种系统的整体性能和效率方面至关重要，尤其是在水文学、工程学和环境科学等领域。简单来说，总排放量指的是在特定时间段内流经特定点的流体总量。这一测量对于评估水资源、管理雨水以及设计如大坝和排水系统等基础设施至关重要。为了说明总排放量的重要性，可以考虑一个河流系统。河流的总排放量可能会因季节变化、降水和人类活动（如大坝建设或灌溉）而显著波动。理解这些变化有助于预测洪水风险，确保农业所需的充足水源，并维护河流生态系统内部的生态平衡。在工程应用中，总排放量在水利结构设计中起着关键作用。工程师必须计算预期的总排放量以确保桥梁、涵洞和其他结构能够承受潜在的洪水情景。如果总排放量超过了这些结构的设计容量，就可能导致灾难性的失败，从而造成生命和财产的损失。此外，在废水管理的背景下，监测污水系统的总排放量对于公共健康和环境保护至关重要。通过测量污水处理厂的总排放量，当局可以确定处理过程的有效性，并确保遵守环境法规。总排放量的增加可能表明系统过载或泄漏，促使必要的干预措施以减轻污染风险。除了实际应用之外，总排放量一词还有理论意义。研究人员研究总排放量以开发预测自然和工程系统水流的模型。这些模型有助于理解不同环境因素之间的复杂相互作用，例如土地利用变化、气候变异和水文循环。通过提高我们对总排放量的理解，科学家可以更好地预测水资源的可用性，并告知可持续管理实践。总之，总排放量这一术语概括了流体动力学的一个基本方面，其在多个学科中具有深远的影响。无论是在管理自然水体、设计韧性基础设施，还是确保有效的废水处理方面，理解总排放量对于明智的决策和可持续资源管理至关重要。随着我们继续面临与水资源短缺和环境退化相关的挑战，准确测量和分析总排放量的重要性只会增加，这突显了在这一领域继续研究和创新的必要性。