cryogenic storage system

简明释义

冷藏系统

英英释义

例句

1.In the aerospace industry, a cryogenic storage system is essential for storing rocket fuel.

在航空航天行业，低温存储系统对于存储火箭燃料至关重要。

2.The pharmaceutical company invested in a state-of-the-art cryogenic storage system to ensure drug stability.

制药公司投资了一套先进的低温存储系统以确保药物的稳定性。

3.The laboratory utilizes a cryogenic storage system to preserve biological samples for research.

实验室利用低温存储系统保存生物样本以供研究。

4.Scientists are developing a new cryogenic storage system that can operate more efficiently.

科学家们正在开发一种新的低温存储系统，可以更高效地运行。

5.Hospitals often rely on a cryogenic storage system for the long-term preservation of organs.

医院通常依赖于低温存储系统来长期保存器官。

作文

In recent years, the importance of a cryogenic storage system has become increasingly evident in various fields, including science, medicine, and energy. A cryogenic storage system refers to a technology that involves storing materials at extremely low temperatures, typically below -150 degrees Celsius. This process is essential for preserving the integrity of certain substances, such as gases, biological samples, and even food products. The ability to maintain these low temperatures allows for the safe storage and transportation of materials that would otherwise degrade or react under normal conditions.One of the most significant applications of a cryogenic storage system is in the field of medicine. For instance, in biobanks, biological samples like blood, tissues, and DNA are stored using this technology to ensure their viability for future research and medical procedures. The preservation of stem cells and other vital cells at cryogenic temperatures allows scientists to conduct experiments and develop treatments without the risk of sample degradation. This is particularly crucial for regenerative medicine and personalized therapies, where the quality of biological materials can significantly impact patient outcomes.Moreover, the energy sector also benefits greatly from cryogenic storage systems. Liquid natural gas (LNG) is one of the most common examples, where natural gas is cooled to a liquid state for efficient storage and transportation. By utilizing a cryogenic storage system, companies can transport large volumes of natural gas across long distances without the need for extensive pipeline networks. This not only reduces costs but also minimizes the environmental impact associated with gas flaring and venting.Furthermore, the aerospace industry relies on cryogenic storage systems for the storage of rocket fuels. Liquid oxygen and liquid hydrogen, which are commonly used as propellants, must be stored at cryogenic temperatures to remain in a liquid state. The development of efficient cryogenic storage systems ensures that these fuels are available when needed, maximizing the performance of rockets and spacecraft.Despite the numerous advantages offered by cryogenic storage systems, there are challenges associated with their implementation. The infrastructure required for maintaining such low temperatures can be costly and complex. Additionally, safety concerns arise from the handling of cryogenic materials, as they can pose risks such as frostbite or explosions if not managed properly. Therefore, ongoing research and innovation in this area are vital to improve the efficiency and safety of cryogenic storage systems.In conclusion, the cryogenic storage system plays a pivotal role in various industries by enabling the preservation and efficient transportation of materials that require low-temperature conditions. From medical applications to energy solutions, the impact of this technology is profound. As we continue to explore new frontiers in science and technology, the development and refinement of cryogenic storage systems will undoubtedly contribute to advancements that benefit society as a whole.

近年来，低温存储系统在科学、医学和能源等多个领域的重要性日益显现。低温存储系统是指一种在极低温度下（通常低于-150摄氏度）存储材料的技术。这一过程对于保护某些物质的完整性至关重要，例如气体、生物样本甚至食品产品。维持这些低温的能力使得可以安全地存储和运输那些在常规条件下会降解或反应的材料。低温存储系统最重要的应用之一是在医学领域。例如，在生物库中，像血液、组织和DNA等生物样本使用此技术进行存储，以确保它们在未来的研究和医疗程序中的有效性。以低温保存干细胞和其他重要细胞，使科学家能够进行实验和开发治疗方法，而不必担心样本的降解。这对于再生医学和个性化疗法尤其关键，因为生物材料的质量会显著影响患者的结果。此外，能源部门也从低温存储系统中受益匪浅。液化天然气（LNG）是最常见的例子之一，其中天然气被冷却至液态，以便高效存储和运输。通过利用低温存储系统，公司可以在没有广泛管道网络的情况下，跨长距离运输大量天然气。这不仅降低了成本，还最小化了与气体燃烧和排放相关的环境影响。此外，航空航天工业依赖于低温存储系统来存储火箭燃料。液氧和液氢是常用的推进剂，必须在低温下存储以保持液态。高效的低温存储系统的发展确保了这些燃料在需要时可用，从而最大化火箭和航天器的性能。尽管低温存储系统提供了众多优势，但其实施也面临挑战。维持如此低温所需的基础设施可能成本高昂且复杂。此外，处理低温材料时会出现安全隐患，因为如果管理不当，可能会造成冻伤或爆炸。因此，该领域的持续研究和创新对于提高低温存储系统的效率和安全性至关重要。总之，低温存储系统在各行业中发挥着关键作用，使需要低温条件的材料能够被保存和高效运输。从医学应用到能源解决方案，这项技术的影响深远。随着我们继续探索科学和技术的新前沿，低温存储系统的发展和完善无疑将为造福整个社会的进步做出贡献。