escape orifice

简明释义

逸出孔

英英释义

例句

1.The design of the valve includes an escape orifice to prevent overpressure.

阀门的设计包括一个逃逸孔以防止过压。

2.During the experiment, we observed that the gas was released from the escape orifice when the temperature rose.

在实验中，我们观察到当温度升高时，气体从逃逸孔释放出来。

3.The pressure in the tank increased, causing the fluid to leak through the escape orifice.

罐内压力升高，导致液体通过逃逸孔泄漏。

4.The engineer explained how the escape orifice works in relation to pressure relief.

工程师解释了逃逸孔如何与压力释放相关联。

5.If the system malfunctions, the safety mechanism will activate the escape orifice.

如果系统发生故障，安全机制将激活逃逸孔。

作文

In the realm of engineering and fluid dynamics, the term escape orifice refers to a specific opening designed to allow fluids or gases to exit a system safely and efficiently. Understanding the function and importance of an escape orifice is crucial in various applications, from industrial machinery to safety systems in buildings. This essay will explore the significance of escape orifice in engineering, its applications, and how it contributes to safety and efficiency in different systems.The primary purpose of an escape orifice is to relieve pressure within a system. For instance, in pressurized tanks or pipelines, if the internal pressure exceeds a certain threshold, it can lead to catastrophic failures, such as explosions or leaks. An escape orifice provides a controlled path for the excess pressure to be released, preventing potential disasters. Engineers design these orifices with specific dimensions and shapes to ensure that they can handle the expected flow rates and pressures without causing turbulence or backflow.Beyond pressure relief, escape orifices are also essential in fluid management systems, such as drainage systems in urban areas. During heavy rainfall, stormwater runoff can overwhelm drainage systems, leading to flooding. The incorporation of escape orifices in these systems allows for excess water to escape into designated areas, thus managing the flow and reducing the risk of flooding in populated regions. This application highlights the importance of escape orifices in urban planning and infrastructure development.Moreover, escape orifices play a vital role in safety systems within buildings. For example, in fire protection systems, pressure relief valves equipped with escape orifices are used to release steam or gas during a fire. This not only helps to maintain the integrity of the building's structure but also protects the occupants by preventing the buildup of hazardous gases. The strategic placement of these orifices ensures that they function effectively during emergencies, showcasing their critical role in safety engineering.In addition to their functional benefits, escape orifices also contribute to the overall efficiency of systems. By allowing for the controlled release of fluids or gases, they help maintain optimal operating conditions. This is particularly important in processes such as chemical manufacturing, where precise control of pressure and flow rates is necessary to ensure product quality and minimize waste. The design and implementation of escape orifices can significantly impact the efficiency of these processes, making them a focal point for engineers seeking to optimize system performance.In conclusion, the concept of escape orifice encompasses more than just a simple opening; it represents a critical component in various engineering applications. From enhancing safety by relieving pressure to improving efficiency in fluid management systems, escape orifices are indispensable in modern engineering practices. As technology advances and industries evolve, the design and application of escape orifices will continue to play a pivotal role in ensuring safety and efficiency across multiple sectors. Understanding the importance of escape orifices is essential for engineers and professionals in the field, as it directly impacts the reliability and effectiveness of the systems they design and manage.

在工程和流体动力学领域，术语escape orifice指的是一个特定的开口，旨在安全有效地允许流体或气体从系统中排出。理解escape orifice的功能和重要性对于各种应用至关重要，从工业机械到建筑物的安全系统。本文将探讨escape orifice在工程中的重要性、其应用以及它如何在不同系统中促进安全和效率。escape orifice的主要目的是缓解系统内的压力。例如，在加压罐或管道中，如果内部压力超过某个阈值，就可能导致灾难性的故障，如爆炸或泄漏。escape orifice提供了一个控制的路径，使多余的压力得以释放，从而防止潜在的灾难。工程师设计这些开口时，会考虑特定的尺寸和形状，以确保它们能够处理预期的流量和压力，而不会造成湍流或回流。除了压力释放，escape orifice在流体管理系统中也至关重要，例如城市地区的排水系统。在强降雨期间，暴雨引起的径流可能会使排水系统不堪重负，从而导致洪水。这些系统中加入escape orifice可以让多余的水流向指定区域，从而管理流量，减少在居民区洪水的风险。这一应用突显了escape orifice在城市规划和基础设施发展中的重要性。此外，escape orifice在建筑物的安全系统中也发挥着重要作用。例如，在消防保护系统中，配备escape orifice的压力释放阀用于在火灾期间释放蒸汽或气体。这不仅有助于保持建筑结构的完整性，还通过防止有害气体的积聚来保护居住者。通过战略性地放置这些开口，确保它们在紧急情况下有效运作，展示了它们在安全工程中的关键作用。除了功能性优势，escape orifice还提高了系统的整体效率。通过允许流体或气体的受控释放，它们有助于维持最佳操作条件。这在化学制造等过程中特别重要，因为在这些过程中，精确控制压力和流量是确保产品质量和最小化浪费所必需的。escape orifice的设计和实施可以显著影响这些过程的效率，使其成为工程师寻求优化系统性能的重点。总之，escape orifice的概念不仅仅是一个简单的开口；它代表了各种工程应用中的关键组件。从通过释放压力来增强安全性，到改善流体管理系统的效率，escape orifice在现代工程实践中不可或缺。随着技术的进步和行业的发展，escape orifice的设计和应用将继续在确保多个领域的安全性和效率方面发挥关键作用。理解escape orifice的重要性对于工程师和该领域的专业人士至关重要，因为这直接影响到他们设计和管理的系统的可靠性和有效性。