auxiliary propulsion system

简明释义

辅助推进系统;

英英释义

例句

1.The auxiliary propulsion system provides additional thrust when the primary engines are underperforming.

当主引擎性能不足时，辅助推进系统提供额外的推力。

2.Engineers are testing the auxiliary propulsion system to ensure it meets safety standards.

工程师正在测试辅助推进系统以确保其符合安全标准。

3.The spacecraft is equipped with an auxiliary propulsion system to assist during landing maneuvers.

这艘航天器配备了一个辅助推进系统以协助着陆操作。

4.In case of main engine failure, the auxiliary propulsion system can be activated for emergency navigation.

如果主引擎故障，可以启动辅助推进系统进行紧急导航。

5.The yacht features an auxiliary propulsion system that allows it to operate even in calm waters.

这艘游艇配备了一个辅助推进系统，即使在平静的水域也能运行。

作文

In the realm of modern engineering and technology, the concept of an auxiliary propulsion system plays a crucial role in enhancing the performance and efficiency of various vehicles, particularly in aerospace and maritime industries. An auxiliary propulsion system refers to a supplementary mechanism that provides additional thrust or power beyond the primary propulsion system. This can be particularly beneficial in situations where extra power is needed for maneuverability, stability, or emergency situations. For instance, in aircraft, auxiliary propulsion systems can help maintain control during critical phases of flight, such as takeoff and landing, or when facing adverse weather conditions.The importance of auxiliary propulsion systems cannot be overstated. In many cases, they serve as a backup to the primary propulsion system, ensuring that a vehicle can still operate safely even if the main engine fails. This redundancy is vital in aviation, where safety is paramount. Similarly, in marine vessels, auxiliary propulsion systems can assist in navigation through narrow channels or during docking procedures, providing the necessary control and agility.Moreover, the integration of auxiliary propulsion systems is not limited to traditional vehicles. With the rise of electric and hybrid technologies, these systems have evolved significantly. For example, electric boats often utilize auxiliary propulsion systems to enhance their range and efficiency, allowing them to operate effectively in various conditions without relying solely on their primary power source. This shift towards more sustainable energy solutions has made the study and implementation of auxiliary propulsion systems even more relevant in today's context.The design and engineering of an auxiliary propulsion system involve complex calculations and considerations. Engineers must account for factors such as weight, balance, and the overall aerodynamic or hydrodynamic profile of the vehicle. The goal is to ensure that the auxiliary propulsion system complements the primary system without adding excessive weight or negatively impacting performance. As technology advances, we see innovative approaches to creating more efficient and effective auxiliary propulsion systems, incorporating materials and designs that maximize performance while minimizing environmental impact.In conclusion, the auxiliary propulsion system is a vital component in the design and operation of modern vehicles, offering enhanced safety, maneuverability, and efficiency. As we continue to explore new technologies and methods of propulsion, understanding the role and function of auxiliary propulsion systems will be essential for engineers and designers alike. Whether in the skies or on the water, these systems contribute significantly to the reliability and functionality of transportation, paving the way for future advancements in the field.

在现代工程和技术领域，辅助推进系统的概念在提升各种车辆的性能和效率方面发挥着至关重要的作用，特别是在航空航天和海事行业。辅助推进系统指的是一种补充机制，提供超出主要推进系统的额外推力或动力。这在需要额外动力以实现机动性、稳定性或应急情况时尤为有益。例如，在飞机中，辅助推进系统可以帮助在飞行的关键阶段（如起飞和着陆）或面对恶劣天气条件时保持控制。辅助推进系统的重要性不容小觑。在许多情况下，它们作为主要推进系统的备用，确保即使主引擎发生故障，车辆仍然可以安全操作。这种冗余在航空中至关重要，因为安全是首要考虑。同样，在海洋船只中，辅助推进系统可以在狭窄通道或停靠过程中协助导航，提供必要的控制和灵活性。此外，辅助推进系统的集成不仅限于传统车辆。随着电动和混合动力技术的兴起，这些系统已经发生了显著变化。例如，电动船通常利用辅助推进系统来增强其续航和效率，使它们能够在各种条件下有效运行，而不完全依赖于其主要动力源。这种向更可持续能源解决方案的转变使得在当今背景下研究和实施辅助推进系统变得更加相关。辅助推进系统的设计和工程涉及复杂的计算和考虑。工程师必须考虑重量、平衡以及车辆的整体空气动力学或水动力学特性等因素。目标是确保辅助推进系统能够补充主要系统，而不会增加过多的重量或对性能产生负面影响。随着技术的进步，我们看到创造更高效、更有效的辅助推进系统的创新方法，包括最大化性能同时最小化环境影响的材料和设计。总之，辅助推进系统是现代车辆设计和操作中的一个重要组成部分，提供了增强的安全性、机动性和效率。随着我们继续探索新的推进技术和方法，理解辅助推进系统的角色和功能对于工程师和设计师来说将是至关重要的。无论是在天空中还是在水中，这些系统都显著地贡献了交通工具的可靠性和功能，为该领域未来的进步铺平了道路。