propulsive auxiliaries

简明释义

推进系统辅机

英英释义

例句

1.Engineers are testing various propulsive auxiliaries to improve fuel efficiency in jet engines.

工程师正在测试各种推进辅助装置以提高喷气发动机的燃油效率。

2.Our research focuses on the integration of propulsive auxiliaries in electric vehicles for better performance.

我们的研究集中在电动车中集成推进辅助装置以获得更好的性能。

3.The use of propulsive auxiliaries in marine vessels can significantly reduce drag and improve speed.

在海洋船只中使用推进辅助装置可以显著减少阻力并提高速度。

4.The propulsive auxiliaries in this drone allow it to hover steadily in windy conditions.

这架无人机中的推进辅助装置使其能够在风大的条件下稳定悬停。

5.The new spacecraft design incorporates advanced propulsive auxiliaries to enhance its maneuverability.

新的航天器设计采用了先进的推进辅助装置以增强其机动性。

作文

In the realm of engineering and mechanics, the term propulsive auxiliaries refers to additional components or systems that assist in the propulsion of a vehicle or an object. These can include various technologies designed to enhance the efficiency and effectiveness of the primary propulsion system. For instance, in the context of aerospace engineering, propulsive auxiliaries might encompass systems like afterburners in jet engines or auxiliary thrusters in spacecraft that provide extra thrust when needed. Understanding how these systems work is crucial for engineers who aim to design more efficient vehicles that can operate under diverse conditions.The importance of propulsive auxiliaries cannot be overstated. They serve as a vital enhancement to the main propulsion mechanisms, allowing for improved performance during critical phases of operation. For example, during takeoff, an aircraft may rely on its main engines for initial thrust, but the addition of propulsive auxiliaries such as boosters can significantly reduce the time it takes to reach cruising altitude. This is particularly important in commercial aviation, where efficiency translates directly into cost savings and increased safety.Moreover, propulsive auxiliaries play a pivotal role in military applications as well. In modern warfare, speed and agility are paramount. The integration of auxiliary propulsion systems allows military vehicles, like tanks and fighter jets, to maneuver swiftly and effectively in combat situations. These systems can provide rapid acceleration or enhanced maneuverability, which can be the difference between success and failure in a mission.Additionally, the concept of propulsive auxiliaries extends beyond traditional vehicles. In the world of robotics and automation, these systems can also be found in robotic arms or drones, where they help in achieving precise movements and actions. By incorporating propulsive auxiliaries, designers can create machines that are not only faster but also more capable of performing complex tasks in various environments.As technology continues to advance, the development of more sophisticated propulsive auxiliaries is inevitable. Innovations in materials science and engineering practices will lead to lighter and more powerful auxiliary systems, further enhancing the capabilities of primary propulsion systems. For instance, researchers are exploring the use of electric propulsion as a propulsive auxiliary in hybrid vehicles, which could revolutionize how we think about transportation and energy consumption.In conclusion, propulsive auxiliaries are essential components that enhance the performance of primary propulsion systems across various fields, including aerospace, military, and robotics. Their ability to provide additional thrust and improve efficiency makes them invaluable in both civilian and military applications. As we move forward, the ongoing research and development in this area will undoubtedly yield new technologies that will redefine our understanding of propulsion and its auxiliary systems, paving the way for more advanced and efficient vehicles in the future.

推进辅助装置在工程和机械领域中指的是辅助推进车辆或物体的额外组件或系统。这些可以包括各种旨在提高主要推进系统效率和效果的技术。例如，在航空航天工程的背景下，推进辅助装置可能包括喷气发动机中的加力燃烧室或航天器中的辅助推进器，这些装置在需要时提供额外的推力。理解这些系统的工作原理对工程师来说至关重要，他们旨在设计出能够在多种条件下运行的更高效的车辆。推进辅助装置的重要性不容小觑。它们作为主要推进机制的重要增强，允许在操作的关键阶段提高性能。例如，在起飞过程中，一架飞机可能依靠其主引擎提供初始推力，但额外的推进辅助装置（如助推器）的添加可以显著减少达到巡航高度所需的时间。这在商业航空中尤为重要，因为效率直接转化为成本节约和安全性提高。此外，推进辅助装置在军事应用中也发挥着关键作用。在现代战争中，速度和灵活性至关重要。辅助推进系统的集成使得坦克和战斗机等军事车辆能够在战斗情况下迅速有效地机动。这些系统可以提供快速加速或增强机动性，这可能是任务成功与失败之间的区别。此外，推进辅助装置的概念不仅限于传统车辆。在机器人和自动化的世界中，这些系统也可以在机器人手臂或无人机中找到，它们帮助实现精确的运动和操作。通过结合推进辅助装置，设计师可以创建不仅更快而且更能在各种环境中执行复杂任务的机器。随着技术的不断进步，更复杂的推进辅助装置的发展是不可避免的。材料科学和工程实践的创新将导致更轻、更强大的辅助系统，从而进一步增强主要推进系统的能力。例如，研究人员正在探索将电推进作为混合动力车辆中的推进辅助装置，这可能会彻底改变我们对交通和能源消耗的看法。总之，推进辅助装置是增强各个领域（包括航空航天、军事和机器人）主要推进系统性能的基本组件。它们提供额外推力和提高效率的能力使其在民用和军事应用中都具有不可替代的价值。随着我们向前发展，该领域的持续研究和开发无疑会产生新的技术，这将重新定义我们对推进及其辅助系统的理解，为未来更先进、更高效的车辆铺平道路。