booster propulsion set

简明释义

加速推进装置

英英释义

例句

1.The booster propulsion set 助推器推进系统 was designed to provide additional thrust during launch.

该booster propulsion set助推器推进系统旨在在发射期间提供额外的推力。

2.Engineers are testing the booster propulsion set 助推器推进系统 to ensure it can withstand extreme temperatures.

工程师正在测试booster propulsion set助推器推进系统以确保它能够承受极端温度。

3.The booster propulsion set 助推器推进系统 played a crucial role in the spacecraft's ascent.

在航天器的上升过程中，booster propulsion set助推器推进系统发挥了至关重要的作用。

4.The rocket's booster propulsion set 助推器推进系统 was ignited to lift it off the launch pad.

火箭的booster propulsion set助推器推进系统被点燃以使其离开发射台。

5.After several modifications, the booster propulsion set 助推器推进系统 is finally ready for its first flight.

经过几次修改，booster propulsion set助推器推进系统终于准备好进行首次飞行。

作文

In the realm of aerospace engineering, the term booster propulsion set refers to a critical component that enhances the thrust of a launch vehicle during its ascent phase. These systems are designed to provide the additional power needed to overcome the gravitational pull of the Earth and propel the spacecraft into orbit. The importance of a booster propulsion set cannot be overstated, as it plays a vital role in ensuring that a spacecraft can achieve the necessary velocity and altitude. The booster propulsion set typically consists of multiple rocket engines that ignite simultaneously at launch, delivering a significant amount of thrust in a short period. This initial burst of energy is essential for lifting heavy payloads, such as satellites or crewed missions, beyond the confines of the Earth's atmosphere. For instance, the Space Shuttle utilized solid rocket boosters as part of its booster propulsion set, which provided the extra lift required during the first few minutes of flight.Moreover, advancements in technology have led to the development of more efficient and powerful booster propulsion sets. Modern rockets often incorporate staged designs, where boosters detach after their fuel is expended, allowing the main engine to continue its journey with reduced weight. This staging process optimizes the rocket's performance and increases its payload capacity. The design and engineering of a booster propulsion set involve meticulous calculations and simulations to ensure reliability and safety. Engineers must consider various factors, including the type of fuel used, the materials for construction, and the overall aerodynamics of the vehicle. Any failure in the booster propulsion set could lead to catastrophic results, making rigorous testing a non-negotiable aspect of the development process.In addition to their role in launching spacecraft, booster propulsion sets also contribute to space exploration missions. For example, when sending rovers to Mars or probes to distant planets, a powerful boost is necessary to escape Earth's gravity and embark on interplanetary journeys. The success of these missions heavily relies on the efficiency and effectiveness of the booster propulsion set employed.In conclusion, the booster propulsion set is an indispensable element of modern space travel, providing the necessary thrust to launch vehicles into orbit and beyond. As technology continues to evolve, the design and functionality of these propulsion systems will undoubtedly improve, paving the way for more ambitious missions in the future. Understanding the intricacies of a booster propulsion set not only highlights the complexities of aerospace engineering but also emphasizes the human drive to explore the unknown realms of our universe.

在航空航天工程领域，短语booster propulsion set指的是一种关键组件，它增强了发射载具在上升阶段的推力。这些系统旨在提供额外的动力，以克服地球的引力并将航天器推进到轨道。booster propulsion set的重要性不容小觑，因为它在确保航天器能够达到必要的速度和高度方面发挥着至关重要的作用。booster propulsion set通常由多个火箭发动机组成，这些发动机在发射时同时点燃，在短时间内提供大量的推力。这种初始的能量爆发对于将重型有效载荷（如卫星或载人任务）提升到地球大气层之外至关重要。例如，航天飞机使用固体火箭助推器作为其booster propulsion set的一部分，这为飞行的前几分钟提供了所需的额外升力。此外，技术的进步导致了更高效、更强大的booster propulsion sets的发展。现代火箭通常采用分级设计，助推器在燃料耗尽后分离，允许主发动机继续以减轻重量的方式进行飞行。这一分级过程优化了火箭的性能，并增加了其有效载荷能力。booster propulsion set的设计和工程涉及细致的计算和模拟，以确保可靠性和安全性。工程师必须考虑多种因素，包括所使用的燃料类型、建造材料以及整个飞行器的空气动力学特性。booster propulsion set的任何故障都可能导致灾难性的后果，因此严格的测试是开发过程中的不可或缺的一部分。除了在发射航天器中的作用外，booster propulsion sets还对太空探索任务做出了贡献。例如，在将探测器发送到火星或遥远行星时，强大的推动力是必要的，以逃离地球的引力并开始行星际旅程。这些任务的成功在很大程度上依赖于所采用的booster propulsion set的效率和有效性。总之，booster propulsion set是现代太空旅行中不可或缺的元素，为将载具发射到轨道及更远的地方提供了必要的推力。随着技术的不断发展，这些推进系统的设计和功能无疑会得到改善，为未来更雄心勃勃的任务铺平道路。理解booster propulsion set的复杂性不仅突显了航空航天工程的复杂性，也强调了人类探索我们宇宙未知领域的驱动力。