liquid oxygen stowage tank

简明释义

液态氧贮存柜

英英释义

例句

1.The engineers inspected the liquid oxygen stowage tank for any signs of leakage before the launch.

工程师在发射前检查了液氧储存罐是否有泄漏迹象。

2.During the safety drill, we practiced how to handle emergencies involving the liquid oxygen stowage tank.

在安全演习中，我们练习了如何处理涉及液氧储存罐的紧急情况。

3.Proper insulation is crucial for maintaining the temperature in the liquid oxygen stowage tank.

良好的绝缘对维持液氧储存罐内的温度至关重要。

4.The liquid oxygen stowage tank must be regularly maintained to ensure its integrity.

必须定期维护液氧储存罐以确保其完整性。

5.Our team is responsible for monitoring the pressure levels in the liquid oxygen stowage tank.

我们的团队负责监测液氧储存罐中的压力水平。

作文

In the realm of aerospace engineering, the importance of proper storage and management of propellants cannot be overstated. One critical component in this process is the liquid oxygen stowage tank, which plays a vital role in the storage and handling of liquid oxygen, a key oxidizer used in rocket propulsion systems. Understanding the function and significance of a liquid oxygen stowage tank is essential for anyone involved in aerospace technology or engineering.Liquid oxygen, or LOX, is oxygen that has been cooled to a point where it becomes a pale blue liquid. It is stored at extremely low temperatures, typically around -183 degrees Celsius. The liquid oxygen stowage tank is designed to maintain these low temperatures while ensuring that the liquid oxygen remains in a stable state until it is needed for combustion in rocket engines.The design of a liquid oxygen stowage tank involves several critical considerations. First and foremost, the material used for construction must withstand extreme cold without becoming brittle. Common materials include aluminum and certain types of stainless steel, which provide both strength and thermal insulation. Additionally, the tank must be equipped with insulation systems to minimize heat transfer from the external environment, thereby preventing the liquid oxygen from vaporizing before it can be utilized.Safety is another paramount concern when dealing with a liquid oxygen stowage tank. Liquid oxygen is highly reactive and can pose significant hazards if not handled properly. For this reason, the tank is often housed in a controlled environment, away from flammable materials. Moreover, safety valves and pressure relief systems are installed to manage any potential overpressure situations that could arise from the vaporization of the liquid oxygen.The operational aspects of a liquid oxygen stowage tank also require careful attention. During the loading process, liquid oxygen is transferred from transport containers into the tank, which must be done in a manner that minimizes the risk of spills or leaks. Once filled, the tank is monitored continuously to ensure that the temperature and pressure remain within safe limits. This monitoring is crucial as any deviation could lead to dangerous situations, including the risk of explosion or fire.In conclusion, the liquid oxygen stowage tank is an indispensable component of modern aerospace operations. Its role in safely storing and managing liquid oxygen is critical for the success of rocket launches and other aerospace applications. As technology advances, so too will the designs and safety measures associated with liquid oxygen stowage tanks, ensuring that they continue to meet the rigorous demands of the aerospace industry. For students and professionals alike, gaining a thorough understanding of the liquid oxygen stowage tank and its operational principles is essential for contributing to the future of space exploration and aeronautics.

在航空航天工程领域，适当存储和管理推进剂的重要性不容忽视。一个关键的组成部分是液氧贮存罐，它在液氧的存储和处理过程中发挥着重要作用，液氧是火箭推进系统中使用的关键氧化剂。理解液氧贮存罐的功能和重要性，对于任何参与航空航天技术或工程的人来说都是至关重要的。液氧，或称LOX，是已被冷却到一定温度，使其变为淡蓝色液体的氧气。它通常在极低的温度下储存，约为-183摄氏度。液氧贮存罐旨在维持这些低温，同时确保液氧保持稳定状态，直到需要用于火箭发动机的燃烧。液氧贮存罐的设计涉及几个关键考虑因素。首先，所用材料必须能够在极寒条件下承受而不变脆。常用材料包括铝和某些类型的不锈钢，它们提供了强度和热绝缘。此外，罐体必须配备绝缘系统，以尽量减少外部环境的热传递，从而防止液氧在使用前蒸发。安全是处理液氧贮存罐时另一个至关重要的关注点。液氧反应性强，如果处理不当可能会带来重大危险。因此，罐体通常放置在控制环境中，远离易燃材料。此外，安全阀和压力释放系统被安装以管理可能因液氧蒸发而导致的任何过压情况。液氧贮存罐的操作方面也需要仔细关注。在装载过程中，液氧从运输容器转移到罐中，这必须以最小化溢出或泄漏风险的方式进行。一旦填满，罐体会持续监测，以确保温度和压力保持在安全范围内。这种监测至关重要，因为任何偏差都可能导致危险情况，包括爆炸或火灾的风险。总之，液氧贮存罐是现代航空航天操作中不可或缺的组成部分。它在安全存储和管理液氧方面的作用对于火箭发射和其他航空航天应用的成功至关重要。随着技术的进步，液氧贮存罐的设计和安全措施也将不断发展，确保它们继续满足航空航天行业的严格要求。对于学生和专业人士来说，深入了解液氧贮存罐及其操作原理对于为未来的太空探索和航空学做出贡献至关重要。