air circulating umbilical

简明释义

1. 空气循环管; 2. 通风管; 3. 供气管;

英英释义

例句

1.The air circulating umbilical is crucial for maintaining a stable environment in space.

在太空中，空气循环脐带对于维持稳定环境至关重要。

2.The technician inspected the air circulating umbilical to ensure it was functioning properly.

技术人员检查了空气循环脐带以确保其正常工作。

3.We need to replace the air circulating umbilical before the next launch to avoid any issues.

我们需要在下次发射之前更换空气循环脐带以避免任何问题。

4.During the mission, the astronaut relied on the air circulating umbilical for a constant supply of oxygen.

在任务期间，宇航员依靠空气循环脐带提供持续的氧气供应。

5.The design of the air circulating umbilical allows for efficient air flow in the spacecraft.

设计的空气循环脐带允许在航天器内高效地流通空气。

作文

In the field of aerospace engineering, various components play crucial roles in ensuring the safety and efficiency of spacecraft. One such component is the air circulating umbilical, which serves as a vital link between the spacecraft and ground support systems. The air circulating umbilical is designed to provide a continuous supply of air to the spacecraft while also allowing for the transfer of electrical power and data signals. This multi-functional nature makes it an essential part of the launch and operation processes.The primary function of the air circulating umbilical is to maintain a stable and controlled environment inside the spacecraft. During pre-launch operations, astronauts and equipment must be kept in optimal conditions to ensure their functionality and safety. The air circulating umbilical helps achieve this by circulating fresh air into the cabin, removing excess carbon dioxide, and regulating temperature and humidity levels.Furthermore, the air circulating umbilical is equipped with sensors that monitor the atmospheric conditions within the spacecraft. These sensors provide real-time data, allowing mission control teams to make informed decisions about the spacecraft's readiness for launch. Without the air circulating umbilical, maintaining the necessary life support conditions would be significantly more challenging.The design of the air circulating umbilical is also a testament to the advancements in technology. It is constructed using lightweight, durable materials that can withstand the harsh conditions of space travel. Additionally, the umbilical is engineered to be flexible, allowing it to adapt to the movements of the spacecraft during launch and ascent. This flexibility is crucial, as any rigid connections could lead to failures or malfunctions during critical phases of the mission.Moreover, the air circulating umbilical plays a role in the post-launch phase as well. Once the spacecraft is in orbit, the umbilical can be retracted, allowing the spacecraft to operate independently while still having the capability to receive updates and commands from ground control. This ability to seamlessly transition between ground support and autonomous operation is a key feature that enhances the overall efficiency of space missions.In conclusion, the air circulating umbilical is an indispensable component in the realm of aerospace engineering. Its ability to provide essential life support, facilitate data transfer, and adapt to the dynamic environment of space travel underscores its significance. As we continue to explore the cosmos, innovations surrounding the air circulating umbilical and similar technologies will undoubtedly play a pivotal role in the success of future missions. Understanding the importance of this component not only highlights the complexities of space exploration but also showcases the remarkable engineering feats achieved in this field.

在航空航天工程领域，各种组件在确保航天器的安全和效率方面发挥着至关重要的作用。其中一个重要组件是空气循环脐带，它作为航天器与地面支持系统之间的重要连接。空气循环脐带旨在为航天器提供持续的空气供应，同时允许电力和数据信号的传输。这种多功能特性使其成为发射和操作过程中的关键部分。空气循环脐带的主要功能是保持航天器内部的稳定和可控环境。在发射前的操作中，宇航员和设备必须保持在最佳条件下，以确保其功能和安全。空气循环脐带通过将新鲜空气循环到舱内、去除多余的二氧化碳以及调节温度和湿度水平来实现这一目标。此外，空气循环脐带还配备了监测航天器内部气候条件的传感器。这些传感器提供实时数据，使任务控制团队能够对航天器的发射准备情况做出明智的决策。如果没有空气循环脐带，保持必要的生命支持条件将会变得更加困难。空气循环脐带的设计也是技术进步的证明。它采用轻质、耐用的材料构建，能够承受太空旅行的恶劣条件。此外，脐带设计成灵活的，能够适应航天器在发射和上升过程中的运动。这种灵活性至关重要，因为任何刚性连接都可能导致关键任务阶段的故障或失效。此外，空气循环脐带在发射后阶段也发挥着作用。一旦航天器进入轨道，脐带可以收回，使航天器能够独立运行，同时仍然具备接收来自地面控制的更新和指令的能力。这种在地面支持和自主操作之间无缝过渡的能力是提高太空任务整体效率的关键特征。总之，空气循环脐带在航空航天工程领域中是不可或缺的组件。它提供必要的生命支持、促进数据传输并适应太空旅行的动态环境，突显了它的重要性。随着我们继续探索宇宙，围绕空气循环脐带和类似技术的创新无疑将在未来任务的成功中发挥关键作用。理解这一组件的重要性不仅突出了太空探索的复杂性，也展示了这一领域所取得的卓越工程成就。