leakage coefficient

简明释义

漏损系数

英英释义

例句

1.The engineer calculated the leakage coefficient to determine how much fluid would escape from the system.

工程师计算了泄漏系数以确定系统中会有多少流体泄漏。

2.To improve efficiency, we need to reduce the leakage coefficient of our piping systems.

为了提高效率，我们需要降低管道系统的泄漏系数。

3.In HVAC systems, a low leakage coefficient can lead to better energy efficiency.

在暖通空调系统中，低泄漏系数可以带来更好的能效。

4.The leakage coefficient was measured during the pressure test to ensure safety standards.

在压力测试中测量了泄漏系数以确保安全标准。

5.A high leakage coefficient indicates poor insulation in the building.

高泄漏系数表明建筑物的绝缘性差。

作文

Understanding the concept of the leakage coefficient is crucial in various fields, particularly in engineering and environmental science. The leakage coefficient refers to a measure of how much fluid or gas escapes from a system compared to the total amount present. This term is often used in contexts such as HVAC (heating, ventilation, and air conditioning) systems, water supply networks, and even in the analysis of pollutants in the environment. In HVAC systems, for instance, the leakage coefficient can indicate the efficiency of air distribution within a building. A high leakage coefficient suggests that a significant amount of conditioned air is escaping through leaks in ducts or walls, leading to higher energy consumption and reduced comfort levels for occupants. Therefore, engineers strive to minimize this coefficient to enhance the performance of heating and cooling systems.Similarly, in water supply networks, the leakage coefficient plays a vital role in determining the sustainability of water resources. When pipes have leaks, the leakage coefficient helps quantify the volume of water lost, which can be significant in urban areas where water scarcity is a concern. By monitoring and reducing the leakage coefficient, municipalities can conserve water, lower operational costs, and ensure a reliable supply for their residents.Moreover, the leakage coefficient is also relevant in environmental studies, particularly when assessing the dispersion of pollutants. For example, in soil contamination scenarios, understanding the leakage coefficient can help determine how quickly and extensively hazardous substances might spread from a contaminated site. This information is essential for risk assessment and remediation efforts, allowing scientists and policymakers to develop effective strategies to protect public health and the environment.To calculate the leakage coefficient, one typically uses the formula: Leakage Coefficient (LC) = Volume of fluid lost / Total volume of fluid in the system.This simple equation highlights the relationship between loss and total capacity, providing a clear metric for evaluation. Engineers and scientists often conduct tests to measure the leakage coefficient under various conditions, ensuring that their assessments are accurate and reflective of real-world scenarios.In conclusion, the leakage coefficient is a critical parameter across multiple disciplines. Its implications reach far beyond mere numbers; they influence design choices, operational strategies, and environmental policies. As we continue to face challenges related to resource management and environmental protection, understanding and optimizing the leakage coefficient will remain an important focus for professionals in these fields. By prioritizing reductions in leakage, we can achieve greater efficiency, sustainability, and safety in our systems and environments.

理解泄漏系数的概念在各个领域中至关重要，尤其是在工程和环境科学中。泄漏系数指的是系统中流体或气体逃逸的量与总量的比较。这一术语通常用于HVAC（供暖、通风和空调）系统、水供应网络，甚至在环境污染物分析中。例如，在HVAC系统中，泄漏系数可以指示建筑内部空气分配的效率。高泄漏系数表明大量调节过的空气通过管道或墙壁的泄漏而逃逸，导致能耗增加和居住者舒适度降低。因此，工程师努力将这一系数降到最低，以提高供暖和制冷系统的性能。同样，在水供应网络中，泄漏系数在确定水资源的可持续性方面发挥着重要作用。当管道出现泄漏时，泄漏系数有助于量化流失的水量，这在水资源紧缺的城市地区可能是相当显著的。通过监测和减少泄漏系数，市政当局可以节约用水，降低运营成本，并确保居民可靠的水供应。此外，泄漏系数在环境研究中也很相关，特别是在评估污染物扩散时。例如，在土壤污染场景中，了解泄漏系数可以帮助确定有害物质从污染地点扩散的速度和范围。这些信息对于风险评估和修复工作至关重要，使科学家和政策制定者能够制定有效的策略来保护公众健康和环境。要计算泄漏系数，通常使用以下公式：泄漏系数（LC）= 流失的流体体积 / 系统中的流体总量。这个简单的方程突出了损失与总容量之间的关系，提供了一个清晰的评估指标。工程师和科学家通常会在各种条件下进行测试，以测量泄漏系数，确保他们的评估准确且反映实际情况。总之，泄漏系数是多个学科中的关键参数。它的影响远不止数字；它们影响设计选择、操作策略和环境政策。随着我们继续面临资源管理和环境保护相关的挑战，理解和优化泄漏系数将仍然是这些领域专业人士的重要关注点。通过优先减少泄漏，我们可以在我们的系统和环境中实现更高的效率、可持续性和安全性。