forward thruster

简明释义

前推力器

英英释义

例句

1.After checking all systems, the crew turned on the forward thruster for takeoff.

在检查完所有系统后，机组人员启动了前推进器进行起飞。

2.During the test flight, the engineers monitored the performance of the forward thruster closely.

在测试飞行期间，工程师们密切监测前推进器的性能。

3.To maneuver effectively, the pilot adjusted the forward thruster settings.

为了有效操控，飞行员调整了前推进器的设置。

4.The forward thruster allows the drone to move swiftly in a straight line.

这个前推进器使无人机能够快速直线移动。

5.The spaceship's forward thruster was activated to initiate the landing sequence.

飞船的前推进器被激活以启动着陆序列。

作文

In the world of aerospace engineering and space exploration, the term forward thruster refers to a propulsion system that generates thrust in the forward direction. This technology is crucial for maneuvering spacecraft, as it allows them to change their velocity and trajectory effectively. The forward thruster plays a significant role in various phases of a mission, from launch to docking with other spacecraft or space stations.When a spacecraft is in orbit, it relies on its forward thruster to make fine adjustments to its position. For instance, if a satellite needs to move to a different orbit or avoid potential collisions with space debris, the forward thruster can be activated to alter its path. This capability is essential for maintaining the safety and functionality of satellites, which are often tasked with critical roles such as communication, weather monitoring, and scientific research.The design of a forward thruster varies depending on the type of spacecraft and its mission objectives. Some spacecraft utilize chemical propulsion systems, where fuel is burned to produce hot gases that are expelled at high speed, generating thrust. Others may employ electric propulsion systems, which use electricity to accelerate ions and create thrust more efficiently. Each method has its advantages and drawbacks, but both are integral to the operation of modern spacecraft.In addition to their primary function of propulsion, forward thrusters can also aid in stabilization. When a spacecraft rotates or tumbles in space, it can become difficult to control. By strategically firing the forward thruster, engineers can regain control and stabilize the craft, ensuring that it maintains the desired orientation. This aspect of maneuverability is particularly important during delicate operations, such as docking with the International Space Station (ISS).Moreover, the concept of a forward thruster is not limited to space travel alone. In underwater vehicles, similar technology is utilized to propel submersibles forward. These underwater thrusters allow for precise navigation in challenging environments, such as deep-sea explorations or underwater research. Just like in space, the ability to maneuver effectively is crucial for the success of missions in aquatic settings.As technology advances, the development of forward thrusters continues to evolve. Researchers are exploring new materials and methods to enhance the efficiency and performance of these propulsion systems. Innovations such as ion thrusters and plasma propulsion are paving the way for more sustainable and long-lasting space missions. The future of space exploration heavily relies on the effectiveness of forward thrusters, as they enable humanity to reach further into the cosmos than ever before.In conclusion, the forward thruster is a vital component in the field of aerospace engineering, providing the necessary thrust for maneuvering spacecraft and underwater vehicles. Its significance spans across various applications, from satellite operations to deep-sea explorations. As we continue to push the boundaries of technology and explore new frontiers, the importance of forward thrusters will only grow, ensuring safe and efficient travel in both space and water environments.

在航空航天工程和太空探索的领域中，术语forward thruster指的是一种向前产生推力的推进系统。这项技术对于操控宇宙飞船至关重要，因为它可以有效地改变飞行器的速度和轨迹。forward thruster在任务的各个阶段中发挥着重要作用，从发射到与其他飞行器或空间站对接。当宇宙飞船处于轨道时，它依赖于其forward thruster来进行细微的位置信息调整。例如，如果卫星需要移动到不同的轨道或避免与太空垃圾发生潜在碰撞，可以激活forward thruster来改变其路径。这种能力对于维护卫星的安全性和功能性至关重要，因为卫星通常承担着通信、天气监测和科学研究等关键角色。forward thruster的设计因飞行器类型及其任务目标而异。一些飞行器利用化学推进系统，通过燃烧燃料产生高温气体，以高速排出产生推力。其他飞行器可能采用电推进系统，使用电能加速离子并更高效地产生推力。这两种方法各有优缺点，但都对现代宇宙飞船的操作至关重要。除了主要的推进功能外，forward thruster还可以帮助稳定飞行器。当宇宙飞船在太空中旋转或翻滚时，控制变得困难。通过战略性地点火forward thruster，工程师可以重新获得控制权并稳定飞行器，确保其保持所需的方向。在进行精细操作（如与国际空间站对接）时，这种机动能力尤为重要。此外，forward thruster的概念不仅限于太空旅行。在水下车辆中，类似的技术被用于推动潜水器向前。这些水下推进器允许在挑战性环境中进行精确导航，例如深海探测或水下研究。就像在太空中一样，有效的操控能力对于水下任务的成功至关重要。随着技术的进步，forward thruster的开发也在不断演进。研究人员正在探索新材料和方法，以提高这些推进系统的效率和性能。离子推进器和等离子推进等创新正在为更可持续和持久的太空任务铺平道路。未来的太空探索在很大程度上依赖于forward thruster的有效性，因为它使人类能够比以往更远地进入宇宙。总之，forward thruster是航空航天工程领域的重要组成部分，为操控宇宙飞船和水下车辆提供必要的推力。它的重要性跨越了各种应用，从卫星操作到深海探测。随着我们继续推动技术的边界并探索新前沿，forward thruster的重要性只会增加，确保在太空和水域环境中的安全高效旅行。