leakage coefficient

简明释义

漏泄系数漏磁系数

英英释义

例句

1.The leakage coefficient is crucial for understanding how much air escapes from a duct system.

对于理解空气从管道系统中逃逸的多少，泄漏系数至关重要。

2.A low leakage coefficient indicates better sealing in HVAC systems.

低泄漏系数表示暖通空调系统的密封性更好。

3.To improve energy efficiency, we need to lower the leakage coefficient of our windows.

为了提高能效，我们需要降低窗户的泄漏系数。

4.In this study, we measured the leakage coefficient of various materials to determine their suitability for construction.

在这项研究中，我们测量了各种材料的泄漏系数以确定它们在建筑中的适用性。

5.The engineer calculated the leakage coefficient to assess the efficiency of the building's insulation.

工程师计算了泄漏系数以评估建筑物绝缘的效率。

作文

In the realm of engineering and fluid dynamics, the term leakage coefficient plays a crucial role in understanding how fluids behave in various systems. The leakage coefficient is essentially a measure that quantifies the amount of fluid that escapes from a system compared to the total amount of fluid present. This coefficient is particularly important in applications such as hydraulic systems, gas pipelines, and even in building construction where the integrity of seals and joints can significantly impact performance and safety.To comprehend the significance of the leakage coefficient, one must first recognize its implications in real-world scenarios. For instance, consider a hydraulic system designed to operate under high pressure. If the leakage coefficient is high, it indicates that a substantial amount of hydraulic fluid is escaping from the system, leading to inefficiencies, increased operational costs, and potential hazards. Engineers must strive to minimize this coefficient to ensure optimal performance and safety.Moreover, the leakage coefficient can be affected by various factors, including the materials used in construction, the quality of seals, and even environmental conditions. For example, in gas pipelines, a small leak can lead to significant losses, both economically and environmentally. Therefore, understanding and calculating the leakage coefficient becomes essential for engineers and technicians who are responsible for maintaining the integrity of these systems.In addition to its practical applications, the leakage coefficient also serves as a critical parameter in research and development. Scientists and engineers often conduct experiments to determine the leakage coefficient of new materials or designs. By analyzing how different configurations affect this coefficient, they can innovate solutions that enhance efficiency and reduce waste. For instance, advancements in sealant technology have focused on lowering the leakage coefficient to improve the reliability of various systems.Furthermore, the leakage coefficient is not only relevant in industrial contexts but also in everyday life. Homeowners may encounter issues related to leaks in plumbing systems, where a high leakage coefficient can result in water damage and increased utility bills. Understanding this concept allows individuals to take preventive measures, such as regular maintenance checks or investing in high-quality fixtures that minimize leakage.In conclusion, the leakage coefficient is a vital concept in engineering and fluid dynamics, serving as a key indicator of system efficiency and safety. Its implications stretch across various fields, from industrial applications to everyday household concerns. By grasping the importance of the leakage coefficient, professionals and individuals alike can work towards minimizing fluid loss, enhancing performance, and ensuring safety in their respective domains. As technology advances, the continued study and improvement of the leakage coefficient will undoubtedly lead to more efficient systems and a more sustainable future.

在工程和流体动力学领域，术语泄漏系数在理解流体在各种系统中的行为方面发挥着至关重要的作用。泄漏系数本质上是一个量度，用于量化从系统中逃逸的流体量与系统中总流体量的比值。这个系数在液压系统、天然气管道，甚至建筑施工中尤为重要，因为密封和接头的完整性会显著影响性能和安全。要理解泄漏系数的重要性，首先必须认识到它在现实场景中的影响。例如，考虑一个设计用于高压操作的液压系统。如果泄漏系数较高，这表明大量液压油从系统中泄漏，导致效率低下、运营成本增加和潜在的危险。工程师必须努力最小化此系数，以确保最佳性能和安全。此外，泄漏系数可能受到多种因素的影响，包括所用材料、密封质量，甚至环境条件。例如，在天然气管道中，小的泄漏可能导致经济和环境上的重大损失。因此，理解和计算泄漏系数对于负责维护这些系统完整性的工程师和技术人员来说至关重要。除了实际应用外，泄漏系数在研究和开发中也是一个关键参数。科学家和工程师通常进行实验以确定新材料或设计的泄漏系数。通过分析不同配置如何影响该系数，他们可以创新出提高效率和减少浪费的解决方案。例如，密封剂技术的进步集中在降低泄漏系数上，以提高各种系统的可靠性。此外，泄漏系数不仅在工业背景下相关，也在日常生活中。房主可能会遇到与管道系统泄漏相关的问题，其中高泄漏系数可能导致水损坏和水费增加。理解这一概念使个人能够采取预防措施，例如定期维护检查或投资于高质量的设施，以最小化泄漏。总之，泄漏系数是工程和流体动力学中的一个重要概念，作为系统效率和安全性的重要指标。其影响范围跨越多个领域，从工业应用到日常家庭问题。通过掌握泄漏系数的重要性，专业人士和个人都可以致力于减少流体损失，提高性能，并确保各自领域的安全。随着技术的进步，对泄漏系数的持续研究和改进无疑将导致更高效的系统和更可持续的未来。