rate of discharge

简明释义

排出率

英英释义

例句

1.Monitoring the rate of discharge 放电率 of batteries is crucial for ensuring their longevity.

监测电池的放电率 rate of discharge对于确保其使用寿命至关重要。

2.A higher rate of discharge 出院率 can indicate effective treatment protocols in a healthcare facility.

较高的出院率 rate of discharge可能表明医疗机构的治疗方案有效。

3.The hospital monitors the rate of discharge 出院率 to improve patient flow and resource allocation.

医院监测出院率 rate of discharge以改善病人流动和资源分配。

4.The engineering team calculated the rate of discharge 排放率 of the water from the reservoir.

工程团队计算了水库的排放率 rate of discharge。

5.The rate of discharge 排放速率 from the factory must comply with environmental regulations.

工厂的排放速率 rate of discharge必须符合环境法规。

作文

In the field of engineering and environmental science, the term rate of discharge refers to the volume of fluid (liquid or gas) that is expelled from a system over a specified period of time. This concept is crucial in various applications, such as hydrology, wastewater management, and even in the design of hydraulic systems. Understanding the rate of discharge is essential for engineers and scientists because it helps them to predict how systems will behave under different conditions and ensures that they can manage resources effectively.For instance, in hydrology, the rate of discharge of a river can influence the surrounding ecosystem significantly. It affects the habitats of aquatic life, the availability of water for irrigation, and the overall health of the environment. A river with a high rate of discharge can lead to flooding, while a low rate of discharge may result in drought conditions. Therefore, monitoring the rate of discharge is vital for water resource management and disaster preparedness.Similarly, in wastewater treatment plants, the rate of discharge is a critical parameter. It determines how quickly the plant can process sewage and treat it before releasing it back into the environment. If the rate of discharge is too high, the treatment process may be insufficient, leading to pollution and health hazards. Conversely, if the rate of discharge is too low, it can cause operational inefficiencies and increase costs. Thus, optimizing the rate of discharge in these facilities is essential for both environmental protection and economic viability.Moreover, in the context of hydraulic systems, such as those used in machinery or vehicles, the rate of discharge can affect performance and efficiency. For example, in hydraulic brakes, the rate of discharge of hydraulic fluid must be controlled precisely to ensure that the brakes respond effectively when needed. An incorrect rate of discharge can lead to brake failure, which poses significant safety risks.In conclusion, the rate of discharge is a fundamental concept that plays a vital role in various fields, including hydrology, wastewater management, and hydraulic engineering. Its implications extend beyond mere calculations; understanding and managing the rate of discharge can lead to better environmental stewardship, enhanced public safety, and improved operational efficiencies. As we continue to face challenges related to water resources and environmental sustainability, the importance of accurately measuring and managing the rate of discharge will only grow. Consequently, education and research in this area are crucial for developing innovative solutions that address these pressing issues.

在工程和环境科学领域，术语排放速率指的是在特定时间内从系统中排出的流体（液体或气体）的体积。这个概念在水文学、废水管理甚至液压系统设计等各种应用中至关重要。理解排放速率对于工程师和科学家来说非常重要，因为它帮助他们预测系统在不同条件下的行为，并确保能够有效管理资源。例如，在水文学中，河流的排放速率会显著影响周围的生态系统。它影响水生生物的栖息地、灌溉用水的可用性以及环境的整体健康。高排放速率的河流可能导致洪水，而低排放速率则可能导致干旱。因此，监测排放速率对于水资源管理和灾害准备至关重要。同样，在废水处理厂中，排放速率是一个关键参数。它决定了处理厂处理污水并在释放到环境之前进行处理的速度。如果排放速率过高，处理过程可能不充分，导致污染和健康风险。相反，如果排放速率过低，可能会导致运营效率低下并增加成本。因此，优化这些设施中的排放速率对于环境保护和经济可行性至关重要。此外，在液压系统的上下文中，例如用于机械或车辆的系统，排放速率可以影响性能和效率。例如，在液压刹车中，必须精确控制液压油的排放速率以确保刹车在需要时有效响应。不正确的排放速率可能导致刹车失灵，这会带来重大安全风险。总之，排放速率是一个基本概念，在水文学、废水管理和液压工程等各个领域发挥着关键作用。它的影响超越了简单的计算；理解和管理排放速率可以导致更好的环境管理、增强公共安全和改善运营效率。随着我们继续面临与水资源和环境可持续性相关的挑战，准确测量和管理排放速率的重要性只会增加。因此，在这一领域的教育和研究对于开发应对这些紧迫问题的创新解决方案至关重要。