escape of air

简明释义

漏气逸气

英英释义

例句

1.During the inspection, we noticed an escape of air from the duct.

在检查过程中，我们注意到管道有空气的泄漏。

2.To prevent the escape of air, ensure all seals are tight.

为了防止空气的逃逸，请确保所有密封件都紧固。

3.The balloon lost its shape because of the slow escape of air.

气球因为空气的慢慢逃逸而失去了形状。

4.We need to fix the leak to stop the escape of air in the system.

我们需要修复泄漏，以停止系统中空气的逃逸。

5.The tire went flat due to the escape of air from a puncture.

由于轮胎被刺破，导致了空气的逃逸。

作文

The concept of escape of air is often overlooked in everyday discussions, yet it plays a crucial role in various fields such as engineering, aviation, and even in our daily lives. Understanding how air can escape from a system helps us grasp the importance of maintaining pressure and ensuring efficiency in different applications.In engineering, the escape of air is particularly significant when designing systems that rely on pneumatic power. Pneumatic tools, for example, operate using compressed air to perform work. If there is an unintentional escape of air, the efficiency of these tools diminishes, leading to wasted energy and increased operational costs. Engineers must carefully consider seals and valves to prevent any leaks, as even a small amount of air escaping can result in substantial losses over time.In aviation, the escape of air is critical for maintaining cabin pressure during flight. Airplanes are designed to fly at high altitudes where the atmospheric pressure is significantly lower than at sea level. To ensure passenger comfort and safety, the cabin is pressurized. Any escape of air from the cabin can lead to rapid decompression, which poses serious risks to passengers and crew. This is why aircraft are built with multiple redundant systems to monitor and control cabin pressure, ensuring that any potential escape of air is swiftly managed.On a more personal level, we might encounter the escape of air in our daily lives through common household items. Consider a bicycle tire; if there is a puncture, air will escape, causing the tire to deflate. Regular maintenance, such as checking for leaks and ensuring proper inflation, helps prevent this escape of air, allowing us to enjoy a smooth ride.The implications of escape of air extend beyond just physical systems. In environmental discussions, the escape of air can refer to the release of gases into the atmosphere. For instance, when discussing climate change, we often talk about greenhouse gases that escape into the air, contributing to global warming. Understanding the sources and impacts of these emissions is vital for developing effective policies aimed at reducing our carbon footprint.Moreover, in the realm of science, the escape of air can be related to studies involving gas laws and thermodynamics. The behavior of gases under varying temperatures and pressures often leads to fascinating discoveries about the nature of matter. When gases are heated, they expand, and if contained, they create pressure. However, if there is an escape of air, the dynamics change, leading to interesting experiments and conclusions about gas behavior.In conclusion, the escape of air is a multifaceted concept that transcends various disciplines. Whether in engineering, aviation, environmental science, or everyday life, understanding the implications and management of air escaping from systems is essential. By recognizing the importance of preventing unnecessary escape of air, we can enhance efficiency, safety, and sustainability in our world. As we continue to innovate and improve our technologies, keeping a close eye on how air interacts with our systems will remain a critical aspect of progress.

“空气的逃逸”这一概念在日常讨论中常常被忽视，但它在工程、航空甚至我们的日常生活中扮演着至关重要的角色。理解空气如何从一个系统中逃逸，有助于我们掌握维持压力和确保不同应用效率的重要性。在工程领域，“空气的逃逸”在设计依赖气动动力的系统时尤为重要。例如，气动工具使用压缩空气来执行工作。如果发生意外的“空气的逃逸”，这些工具的效率就会降低，导致能源浪费和运营成本增加。工程师必须仔细考虑密封件和阀门，以防止任何泄漏，因为即使是少量空气的逃逸，也可能导致长时间内的巨大损失。在航空领域，“空气的逃逸”对于维持飞行中的客舱压力至关重要。飞机设计用于在高空飞行，此时大气压力显著低于海平面。为了确保乘客的舒适和安全，客舱需要加压。客舱中任何“空气的逃逸”都可能导致快速减压，这对乘客和机组人员构成严重风险。这就是为什么飞机配备了多重冗余系统，以监测和控制客舱压力，确保任何潜在的“空气的逃逸”能够迅速得到处理。在更个人化的层面上，我们可能在日常生活中通过常见的家居用品遇到“空气的逃逸”。例如，考虑一下自行车轮胎；如果有一个刺破，空气便会“逃逸”，导致轮胎泄气。定期维护，比如检查泄漏和确保适当的充气，有助于防止这种“空气的逃逸”，让我们享受顺畅的骑行。“空气的逃逸”的影响不仅限于物理系统。在环境讨论中，“空气的逃逸”可以指气体释放到大气中。例如，在讨论气候变化时，我们常常谈到逃逸到空气中的温室气体，这些气体促进了全球变暖。了解这些排放的来源和影响对于制定有效政策以减少我们的碳足迹至关重要。此外，在科学领域，“空气的逃逸”可以与气体法则和热力学的研究有关。气体在不同温度和压力下的行为常常导致对物质性质的迷人发现。当气体被加热时，它们会膨胀，如果被限制，会产生压力。然而，如果发生“空气的逃逸”，动态就会改变，从而引发关于气体行为的有趣实验和结论。总之，“空气的逃逸”是一个多方面的概念，跨越多个学科。无论是在工程、航空、环境科学还是日常生活中，理解空气从系统中逃逸的影响和管理至关重要。通过认识到防止不必要的“空气的逃逸”的重要性，我们可以提高世界的效率、安全性和可持续性。随着我们继续创新和改善我们的技术，密切关注空气如何与我们的系统相互作用将始终是进步的关键方面。