cryogenic unit

简明释义

低温装置

英英释义

例句

1.During the launch, the cryogenic unit helps keep the fuel at optimal temperatures.

在发射过程中，低温设备帮助保持燃料在最佳温度。

2.The cryogenic unit is essential for preserving biological samples at extremely low temperatures.

这个低温设备对于在极低温度下保存生物样本至关重要。

3.Our company specializes in manufacturing cryogenic units for the aerospace industry.

我们公司专门为航空航天行业制造低温设备。

4.The research lab installed a new cryogenic unit to conduct experiments on superconductivity.

研究实验室安装了一个新的低温设备以进行超导实验。

5.Engineers are troubleshooting the cryogenic unit that failed during the test.

工程师们正在排查在测试中失败的低温设备。

作文

In the field of science and technology, the term cryogenic unit refers to a system or device that operates at extremely low temperatures, typically below -150 degrees Celsius. These units are essential in various applications, including space exploration, medical treatments, and industrial processes. Understanding the function and significance of a cryogenic unit can shed light on its critical role in modern advancements.Cryogenics is the study of materials at very low temperatures and their behavior under such conditions. The cryogenic unit is designed to achieve and maintain these low temperatures, often using liquid gases such as nitrogen or helium. For instance, in the aerospace industry, cryogenic units are used to cool rocket engines and fuel systems. The ability to keep these components cold is crucial for ensuring their efficiency and performance during launches.Moreover, cryogenic units play a vital role in the medical field, particularly in cryopreservation. This process involves preserving biological samples, such as cells, tissues, and even organs, at ultra-low temperatures. By utilizing a cryogenic unit, researchers can store these samples for extended periods without degradation. This technology is invaluable for organ transplants and fertility treatments, where the preservation of viable cells is essential.In industrial applications, cryogenic units are employed in the liquefaction of gases. For example, natural gas must be cooled to extremely low temperatures to transform it into a liquid state for transportation and storage. The cryogenic unit facilitates this process, allowing for efficient and safe handling of gases that would otherwise be challenging to transport.The design of a cryogenic unit is complex and requires advanced engineering. Insulation is a critical component, as it minimizes heat transfer from the surroundings, ensuring that the internal temperature remains stable. Additionally, these units often incorporate sophisticated control systems to monitor and adjust the temperature as needed. The advancements in technology have led to the development of more efficient cryogenic units, which not only save energy but also reduce operational costs.Furthermore, the research and development of cryogenic units continue to evolve. Scientists are exploring new materials and methods to enhance the performance of these systems. For instance, superconducting materials, which exhibit zero electrical resistance at low temperatures, are being integrated into cryogenic units for improved efficiency.In conclusion, the cryogenic unit is a pivotal component in various scientific and industrial fields. Its ability to operate at extremely low temperatures opens up numerous possibilities for advancements in technology and medicine. As we continue to explore the potential of cryogenics, the importance of cryogenic units will only grow, paving the way for innovations that can change the world. Understanding this technology is essential for anyone interested in the future of science and engineering.

在科学和技术领域，术语低温单元指的是在极低温度下运行的系统或设备，通常低于-150摄氏度。这些单元在各种应用中至关重要，包括太空探索、医疗治疗和工业过程。理解低温单元的功能和重要性可以揭示其在现代进步中的关键作用。低温学是研究材料在极低温度下及其在这种条件下的行为的学科。低温单元旨在实现和维持这些低温，通常使用液体气体，如氮气或氦气。例如，在航空航天工业中，低温单元用于冷却火箭发动机和燃料系统。保持这些组件冷却的能力对于确保它们在发射期间的效率和性能至关重要。此外，低温单元在医疗领域发挥着重要作用，特别是在冷冻保存中。这个过程涉及在超低温下保存生物样本，例如细胞、组织甚至器官。通过利用低温单元，研究人员可以在不降解的情况下长期存储这些样本。这项技术对器官移植和生育治疗至关重要，在这些情况下，保存可行细胞至关重要。在工业应用中，低温单元用于气体的液化。例如，天然气必须被冷却到极低的温度，以将其转化为液态以便运输和存储。低温单元促进了这个过程，使得处理原本难以运输的气体变得高效和安全。低温单元的设计复杂，需要先进的工程技术。绝缘是一个关键组件，因为它最小化了来自周围环境的热传递，确保内部温度保持稳定。此外，这些单元通常还包含复杂的控制系统，以监测和调整温度。技术的进步导致了更高效的低温单元的发展，这不仅节省了能源，还降低了运营成本。此外，低温单元的研究与开发仍在不断演进。科学家们正在探索新的材料和方法，以提升这些系统的性能。例如，超导材料在低温下表现出零电阻，正在被整合到低温单元中，以提高效率。总之，低温单元是各种科学和工业领域的重要组成部分。它在极低温度下的操作能力为技术和医学的进步开辟了无数可能性。随着我们继续探索低温学的潜力，低温单元的重要性只会增加，为改变世界的创新铺平道路。理解这一技术对任何对科学和工程未来感兴趣的人来说都是至关重要的。