air separating tank

简明释义

1. 空气分离罐; 2. 吹离槽;

英英释义

例句

1.During maintenance, we found a leak in the air separating tank 空气分离罐, which needed immediate repair.

在维护过程中，我们发现<自身>空气分离罐有一个泄漏，需要立即修理。

2.The engineer explained how the air separating tank 空气分离罐 works in the process of producing oxygen.

工程师解释了<自身>空气分离罐在氧气生产过程中的工作原理。

3.The air separating tank 空气分离罐 is crucial for ensuring the purity of the gases produced.

<自身>空气分离罐对于确保所产生气体的纯度至关重要。

4.We installed a new air separating tank 空气分离罐 to improve our production efficiency.

我们安装了一个新的<自身>空气分离罐以提高生产效率。

5.The technician monitored the pressure levels in the air separating tank 空气分离罐 to ensure safe operation.

技术员监测<自身>空气分离罐中的压力水平，以确保安全操作。

作文

In the field of industrial engineering, the concept of an air separating tank plays a crucial role in various processes. An air separating tank is a specialized vessel designed to separate different components of air, primarily oxygen and nitrogen, through various methods such as cryogenic distillation or adsorption. This separation is essential for numerous applications, including medical oxygen supply, nitrogen generation for food preservation, and even in the manufacturing of electronic components where pure gases are required.To understand the functionality of an air separating tank, it is important to delve into the science behind air separation. Air is composed of approximately 78% nitrogen, 21% oxygen, and trace amounts of other gases. In many industrial applications, the need for high-purity gases is paramount. For instance, hospitals require pure oxygen for patient care, while the food industry relies on nitrogen to extend shelf life by displacing oxygen in packaging.The operation of an air separating tank typically begins with the intake of atmospheric air, which is then compressed to increase its pressure. This compression process raises the temperature of the air, necessitating a cooling phase before it enters the separation unit. Once cooled, the air is subjected to a separation process. In cryogenic air separation, the air is liquefied and then distilled to separate the gases based on their boiling points. Oxygen, having a higher boiling point than nitrogen, can be collected separately after distillation.Another method used in air separating tanks is pressure swing adsorption (PSA), which utilizes adsorbent materials to selectively capture nitrogen from the air under high pressure. When the pressure is released, the adsorbed nitrogen is released, allowing for the collection of purified oxygen. This method is particularly advantageous for smaller-scale operations or where continuous gas supply is needed.The importance of air separating tanks cannot be overstated. They are vital for ensuring that industries have access to the necessary gases for their operations. In the medical field, the availability of oxygen from these tanks can literally mean the difference between life and death. Similarly, in the food industry, the use of nitrogen helps to maintain product quality and safety, reducing food spoilage and waste.Moreover, as industries strive to become more environmentally friendly, the efficiency of air separating tanks has improved significantly. Modern technologies allow for better energy consumption and reduced emissions during the gas separation process. This aligns with global efforts to minimize carbon footprints and promote sustainable practices across various sectors.In conclusion, the air separating tank is an indispensable component of modern industrial processes. Its ability to efficiently separate air into its constituent gases has far-reaching implications for health, safety, and sustainability. As technology advances, we can expect further innovations in the design and operation of these tanks, leading to even greater efficiencies and applications in the future.

在工业工程领域，空气分离罐的概念在各种过程中发挥着至关重要的作用。空气分离罐是一种专门设计的容器，用于通过低温蒸馏或吸附等多种方法分离空气的不同成分，主要是氧气和氮气。这种分离对于许多应用至关重要，包括医疗氧气供应、食品保鲜用氮气生成，甚至在制造电子元件时需要纯净气体。要理解空气分离罐的功能，重要的是深入研究空气分离背后的科学。空气大约由78%的氮气、21%的氧气和微量的其他气体组成。在许多工业应用中，对高纯度气体的需求至关重要。例如，医院需要用于患者护理的纯氧，而食品行业依赖氮气通过置换包装中的氧气来延长保质期。空气分离罐的操作通常始于大气空气的摄入，然后将其压缩以提高压力。这个压缩过程会提高空气的温度，因此在进入分离单元之前需要冷却阶段。一旦冷却，空气就会经历分离过程。在低温空气分离中，空气被液化，然后通过蒸馏分离气体，基于它们的沸点。氧气由于具有比氮气更高的沸点，可以在蒸馏后单独收集。在空气分离罐中使用的另一种方法是压力摆动吸附（PSA），该方法利用吸附材料在高压下选择性地捕获空气中的氮气。当压力释放时，吸附的氮气被释放，从而允许收集纯化的氧气。这种方法特别适用于小规模操作或需要连续气体供应的地方。空气分离罐的重要性不容小觑。它们对于确保工业获得必要的气体以进行操作至关重要。在医疗领域，这些罐中氧气的可用性可以字面上意味着生与死之间的差异。类似地，在食品行业，氮气的使用有助于保持产品质量和安全，减少食品变质和浪费。此外，随着各行业努力实现更加环保的目标，空气分离罐的效率显著提高。现代技术允许在气体分离过程中更好地消耗能源并减少排放。这与全球努力减少碳足迹和促进各个部门可持续实践的目标相一致。总之，空气分离罐是现代工业过程不可或缺的组成部分。它有效分离空气成分的能力对健康、安全和可持续性具有深远的影响。随着技术的进步，我们可以期待这些罐的设计和操作方面进一步创新，从而在未来实现更大的效率和应用。