air trap

简明释义

1. 空气分离器; 2. 分气器; 3. 捕气器;

英英释义

An air trap is a device or a mechanism that captures and holds air within a system, preventing it from escaping.

空气捕集器是一种装置或机制,用于在系统中捕获并保持空气,防止其逸出。

In plumbing, an air trap refers to a section of piping designed to hold a small amount of water, which creates a barrier that prevents air and gases from entering the piping system.

在管道中,空气捕集器指的是一段设计用于保持少量水的管道,这形成了一个屏障,防止空气和气体进入管道系统。

例句

1.When installing a new sink, make sure there is no air trap in the pipes that could block water flow.

安装新水槽时,确保管道中没有可能阻塞水流的空气陷阱

2.During the inspection, they found an air trap in the heating system that needed to be cleared.

在检查过程中,他们发现供热系统中有一个需要清除的空气陷阱

3.In the aquarium, an air trap can cause fish to suffocate if not managed properly.

在水族箱中,如果不妥善管理,空气陷阱可能会导致鱼窒息。

4.The engineer designed the system to eliminate any potential air traps that could disrupt the process.

工程师设计了该系统,以消除任何可能干扰流程的空气陷阱

5.The plumber explained that an air trap is essential for preventing sewer gases from entering the home.

水管工解释说,一个空气陷阱对于防止下水道气体进入家中是必不可少的。

作文

In the world of engineering and fluid dynamics, the term air trap refers to a phenomenon where air is trapped in a system, preventing the smooth flow of liquids or gases. This can occur in various contexts, such as plumbing, heating systems, and even in natural bodies of water. Understanding the concept of an air trap is essential for engineers and technicians to ensure that systems operate efficiently and effectively.One common example of an air trap can be found in residential plumbing. When water flows through pipes, it is crucial for the system to remain filled with liquid to maintain pressure and prevent air from entering the lines. If air becomes trapped in the pipes, it can lead to a reduction in water flow and may cause gurgling sounds or even complete blockages. To mitigate this issue, plumbers often install vents or air release valves that allow trapped air to escape, thereby maintaining optimal flow conditions.In heating systems, particularly those that use radiators, air traps can significantly impact performance. When air becomes trapped within a radiator, it prevents hot water from circulating properly, leading to uneven heating in a room. Homeowners may notice that certain areas remain cold while others are warm. To address this problem, it is common practice to bleed the radiators, which involves releasing the trapped air to restore efficient circulation of hot water. This simple maintenance task can improve comfort levels and enhance energy efficiency.Beyond plumbing and heating, air traps can also be observed in natural environments. For instance, when water flows over rocks in a stream, small pockets of air can become trapped beneath the surface. These air traps can create bubbles and affect the flow of water, leading to changes in the local ecosystem. Aquatic life, such as fish and insects, may rely on the presence of these air pockets for oxygen, illustrating the importance of understanding how air traps function in nature.The implications of air traps extend beyond mere inconvenience; they can have significant effects on system efficiency and environmental health. In industrial applications, air traps can lead to equipment malfunctions and increased energy costs. For example, in large-scale water treatment facilities, the presence of air in pumps can reduce their efficiency, resulting in higher operational costs and potential downtime. Engineers must design systems that account for the possibility of air traps and incorporate features that minimize their formation.In conclusion, the concept of an air trap is multifaceted and impacts various fields, including plumbing, heating, and environmental science. By understanding how air traps form and their consequences, professionals can take proactive measures to prevent issues related to air entrapment. Whether through proper system design, regular maintenance, or environmental considerations, addressing air traps is crucial for ensuring efficiency and sustainability. As technology continues to advance, ongoing research into the behavior of air traps will likely yield new solutions and innovations to improve system performance across multiple industries.

在工程和流体动力学的世界中,术语air trap指的是一种现象,其中空气被困在系统中,阻碍液体或气体的顺畅流动。这种情况可以出现在各种场合,例如管道、供暖系统,甚至自然水体。理解air trap的概念对于工程师和技术人员确保系统高效有效地运行至关重要。一个常见的air trap示例可以在住宅管道中找到。当水通过管道流动时,保持系统充满液体以维持压力并防止空气进入管道至关重要。如果空气被困在管道中,可能会导致水流减少,并可能产生咕噜声,甚至完全堵塞。为了减轻这个问题,水管工通常会安装通风口或排气阀,以允许被困的空气逃逸,从而保持最佳流动条件。在供暖系统中,特别是使用散热器的系统中,air traps可能显著影响性能。当空气被困在散热器内时,它会阻止热水的正常循环,导致房间内的加热不均匀。房主可能会注意到某些区域保持寒冷,而其他区域则温暖。为了解决这个问题,常见的做法是放气,即释放被困的空气以恢复热水的有效循环。这个简单的维护任务可以改善舒适度并提高能效。除了管道和供暖,air traps也可以在自然环境中观察到。例如,当水流过溪流中的岩石时,水面下可能会形成小气泡。这样的air traps可以产生气泡并影响水流,从而导致当地生态系统的变化。水生生物,如鱼类和昆虫,可能依赖这些气泡的存在来获取氧气,这说明了理解air traps在自然界中的作用的重要性。air traps的影响不仅仅是造成不便;它们可能对系统效率和环境健康产生重大影响。在工业应用中,air traps可能导致设备故障和能源成本增加。例如,在大型水处理设施中,泵内的空气存在可能降低其效率,导致更高的运营成本和潜在的停机时间。工程师必须设计考虑到空气被困可能性的系统,并纳入最小化其形成的特征。总之,air trap的概念是多方面的,影响着多个领域,包括管道、供暖和环境科学。通过了解air traps的形成及其后果,专业人士可以采取主动措施防止与空气被困相关的问题。无论是通过适当的系统设计、定期维护还是环境考虑,解决air traps问题对于确保效率和可持续性至关重要。随着技术的不断进步,对air traps行为的持续研究可能会产生新的解决方案和创新,以改善多个行业的系统性能。