leakage path

简明释义

漏电路径

英英释义

例句

1.The technician used a thermal camera to locate the leakage path in the insulation.

技术员使用热成像相机定位绝缘材料中的泄漏路径。

2.During the inspection, several leakage paths were found in the HVAC system.

在检查中，发现HVAC系统中有几个泄漏路径。

3.Finding the leakage path is crucial for preventing further damage to the structure.

找到泄漏路径对于防止进一步损坏结构至关重要。

4.The engineer identified the leakage path in the pipeline that was causing the water loss.

工程师识别出管道中的泄漏路径，导致了水的损失。

5.To improve energy efficiency, we need to seal any leakage paths in the building.

为了提高能效，我们需要封闭建筑中的任何泄漏路径。

作文

In the world of engineering and design, understanding the concept of a leakage path is crucial for ensuring the integrity and efficiency of systems. A leakage path refers to an unintended route through which fluids, gases, or even electrical currents can escape from their intended containment. This phenomenon can lead to significant issues, ranging from reduced efficiency to catastrophic failures in mechanical systems. Therefore, it is essential for engineers and designers to identify and mitigate potential leakage paths during the planning and execution phases of any project.One of the most common contexts in which leakage paths are discussed is in fluid dynamics. For example, in a hydraulic system, if there are small gaps or cracks in the pipes or fittings, hydraulic fluid can leak out, leading to a loss of pressure and ultimately a failure of the system. Engineers must meticulously design these systems to ensure that every joint and connection is secure and that there are no unintended leakage paths.In addition to mechanical systems, leakage paths can also be found in electrical applications. In this case, a leakage path may refer to an unintentional conductive pathway that allows electrical current to escape from its intended circuit. This can pose serious safety risks, including electric shock or fire hazards. To prevent such occurrences, electrical engineers must consider insulation materials and design layouts that minimize potential leakage paths.The implications of leakage paths extend beyond just the technical aspects; they can also have financial consequences. For instance, in industries such as oil and gas, even a small leak can result in substantial economic losses and environmental damage. Companies are increasingly investing in advanced detection technologies to identify leakage paths early and address them before they escalate into larger problems. This proactive approach not only saves money but also helps protect the environment and maintain regulatory compliance.Furthermore, the concept of leakage paths can be applied metaphorically in various fields, including business and communication. For instance, in a corporate setting, a leakage path might represent a flaw in the flow of information within an organization. If critical information escapes through informal channels or miscommunication, it can lead to misunderstandings and inefficiencies. Addressing these metaphorical leakage paths is essential for fostering a transparent and effective workplace culture.In conclusion, the term leakage path encompasses a wide range of applications, from engineering and design to business communication. Understanding and managing leakage paths is vital for ensuring the effectiveness and safety of systems, whether they are mechanical, electrical, or organizational. As technology continues to advance, the methods for detecting and addressing leakage paths will undoubtedly evolve, leading to more efficient and sustainable practices across various industries. By prioritizing the identification and mitigation of leakage paths, professionals can enhance the reliability of their systems and contribute to a safer and more efficient world.

在工程和设计的世界中，理解“泄漏路径”这一概念对于确保系统的完整性和效率至关重要。“泄漏路径”指的是一种意外的途径，通过它，液体、气体甚至电流可以从其预定的容器中逸出。这种现象可能导致重大问题，从效率降低到机械系统的灾难性故障。因此，工程师和设计师在任何项目的规划和执行阶段都必须识别并减轻潜在的泄漏路径。在讨论泄漏路径的最常见背景之一是流体动力学。例如，在液压系统中，如果管道或接头存在小缝隙或裂缝，液压油可能会泄漏，从而导致压力损失，最终导致系统故障。工程师必须精心设计这些系统，以确保每个接头和连接都是安全的，并且没有意图之外的泄漏路径。除了机械系统，泄漏路径也可以在电气应用中找到。在这种情况下，泄漏路径可能指的是一种无意的导电路径，使电流从其预定电路中逸出。这可能带来严重的安全风险，包括电击或火灾危险。为了防止这种情况的发生，电气工程师必须考虑绝缘材料和设计布局，以最小化潜在的泄漏路径。泄漏路径的影响不仅限于技术方面；它们还可能带来财务后果。例如，在石油和天然气等行业，即使是小的泄漏也可能导致巨大的经济损失和环境破坏。公司越来越多地投资于先进的检测技术，以便及早识别泄漏路径，并在问题升级为更大问题之前加以解决。这种主动的方法不仅节省了资金，还帮助保护环境并维护合规性。此外，“泄漏路径”这一概念在各个领域也可以隐喻性地应用，包括商业和沟通。例如，在企业环境中，泄漏路径可能代表组织内信息流动中的缺陷。如果关键信息通过非正式渠道或误传而泄露，就可能导致误解和低效。解决这些隐喻性的泄漏路径对于促进透明和有效的工作场所文化至关重要。总之，泄漏路径这一术语涵盖了广泛的应用，从工程和设计到商业沟通。理解和管理泄漏路径对于确保系统的有效性和安全性至关重要，无论它们是机械的、电气的还是组织的。随着技术的不断进步，检测和解决泄漏路径的方法无疑会不断演变，从而在各个行业中实现更高效和可持续的实践。通过优先识别和减轻泄漏路径，专业人士可以提高系统的可靠性，为一个更安全、更高效的世界做出贡献。