air escape

简明释义

排气孔

英英释义

The process or act of air leaving a confined space, often resulting in a decrease in pressure or volume.

空气离开一个封闭空间的过程或行为,通常导致压力或体积的减少。

A situation where air unintentionally escapes from a container or system, potentially leading to loss of function or efficiency.

空气无意中从容器或系统中逸出的情况,可能导致功能或效率的损失。

例句

1.The tire went flat due to an air escape 空气泄漏 caused by a sharp object on the road.

轮胎因路上的尖锐物体造成的空气泄漏而瘪了。

2.The engineer designed the system to minimize any potential air escape 空气泄漏 during operation.

工程师设计了该系统,以尽量减少运行期间可能发生的空气泄漏

3.The balloon began to deflate as the air escape 空气泄漏 occurred from a small puncture.

气球因为小孔的空气泄漏而开始放气。

4.During the test, we noticed an air escape 空气泄漏 from the valve, which affected the results.

在测试过程中,我们注意到阀门有一个空气泄漏,这影响了结果。

5.To prevent air escape 空气泄漏, make sure all seals are properly fitted.

为了防止空气泄漏,确保所有密封件都正确安装。

作文

In the realm of physics and engineering, understanding the concept of air escape is crucial for various applications, especially in aerodynamics and fluid dynamics. Air escape refers to the process by which air exits a confined space, often leading to changes in pressure and flow dynamics. This phenomenon can be observed in everyday scenarios, such as when a balloon is punctured or when air is released from a tire. The implications of air escape extend beyond simple observations; they play a significant role in designing efficient systems in aviation, automotive, and even architectural engineering.When we consider the mechanics of flight, for example, the concept of air escape becomes particularly relevant. Aircraft are designed with various components that manage airflow to optimize lift and reduce drag. If there were unintended air escape from the aircraft's fuselage or wings, it could lead to catastrophic failures or decreased performance. Engineers must meticulously calculate the potential for air escape during the design phase to ensure safety and efficiency.Moreover, air escape also has implications in the field of environmental science. For instance, when studying natural phenomena such as volcanic eruptions, scientists observe how gases, including air, escape from the earth's crust. The rate and volume of air escape can provide valuable data about the eruption's intensity and potential hazards. Understanding these processes helps in predicting natural disasters and mitigating their impacts on communities.In the context of everyday life, air escape can be seen in various appliances and tools. For instance, when using a vacuum cleaner, the device creates a low-pressure environment, causing air to rush in from outside, effectively removing dust and debris. If there were leaks or unintended air escape in the system, it would significantly reduce the vacuum's efficiency. Thus, manufacturers must ensure that their products minimize air escape to maintain optimal functionality.Furthermore, the importance of air escape can also be highlighted in safety equipment like life vests and airbags. These devices rely on rapid inflation and deflation mechanisms, where controlled air escape is essential for their effectiveness. In the case of an airbag deploying in a vehicle, the rapid release of air is designed to cushion the impact for passengers. If the air escape is not managed correctly, it could lead to insufficient protection during an accident.In conclusion, the concept of air escape is multifaceted and plays a vital role across various fields. From engineering to environmental science and everyday appliances, understanding how air escapes from different systems can lead to improved designs, enhanced safety measures, and better predictions of natural events. As technology continues to advance, the study of air escape will remain a critical area of research, with implications that touch our daily lives and the broader environment. Therefore, fostering a deeper understanding of this phenomenon is essential for both current and future innovations in multiple disciplines.

在物理和工程学领域,理解空气逃逸的概念对各种应用至关重要,尤其是在空气动力学和流体动力学中。空气逃逸是指空气从一个封闭空间中排出的过程,这往往会导致压力和流动动态的变化。这种现象可以在日常场景中观察到,例如当气球被刺破或轮胎中的空气释放时。空气逃逸的影响不仅限于简单的观察;它们在航空、汽车甚至建筑工程的高效系统设计中发挥着重要作用。例如,当我们考虑飞行力学时,空气逃逸的概念变得尤为相关。飞机的设计涉及多种组件,管理气流以优化升力和减少阻力。如果飞机机身或机翼有意外的空气逃逸,可能会导致灾难性的故障或性能下降。工程师必须在设计阶段仔细计算空气逃逸的潜在可能性,以确保安全和效率。此外,空气逃逸在环境科学领域也具有重要意义。例如,在研究火山喷发等自然现象时,科学家观察到气体(包括空气)如何从地壳中逸出。空气逃逸的速率和体积可以提供有关喷发强度和潜在危害的宝贵数据。理解这些过程有助于预测自然灾害并减轻其对社区的影响。在日常生活中,空气逃逸可以在各种电器和工具中看到。例如,当使用吸尘器时,设备会创建一个低压环境,使空气从外部迅速涌入,有效地去除灰尘和杂物。如果系统中存在泄漏或意外的空气逃逸,将显著降低吸尘器的效率。因此,制造商必须确保他们的产品最小化空气逃逸,以保持最佳功能。此外,空气逃逸的重要性还可以在安全设备中得到强调,如救生衣和安全气囊。这些设备依赖快速充气和放气机制,其中控制的空气逃逸对于其有效性至关重要。在车辆中安全气囊部署的情况下,空气的快速释放旨在为乘客提供缓冲保护。如果空气逃逸没有正确管理,可能会导致事故中保护不足。总之,空气逃逸的概念是多方面的,在各个领域发挥着重要作用。从工程到环境科学再到日常电器,理解空气如何从不同系统中逸出可以导致更好的设计、增强的安全措施以及更好的自然事件预测。随着技术的不断进步,空气逃逸的研究将继续成为一个关键领域,其影响触及我们的日常生活和更广泛的环境。因此,深入理解这一现象对于多个学科当前和未来的创新至关重要。