propulsion assisted

简明释义

辅助推进

英英释义

例句

1.The research team is developing a propulsion assisted drone that can carry heavier loads over longer distances.

研究小组正在开发一种助推推进无人机，可以在更长距离内携带更重的负载。

2.Many modern boats use propulsion assisted engines to improve fuel efficiency and reduce emissions.

许多现代船只使用助推推进引擎来提高燃油效率并减少排放。

3.In the latest model, the propulsion assisted technology significantly increases speed without draining the battery too quickly.

在最新型号中，助推推进技术显著提高了速度，同时不会过快耗尽电池。

4.The new electric bike features a propulsion assisted system that helps riders climb steep hills effortlessly.

这款新电动自行车配备了一个助推推进系统，可以帮助骑行者轻松攀爬陡坡。

5.With the propulsion assisted feature, athletes can train more effectively by simulating various resistance levels.

通过助推推进功能，运动员可以通过模拟不同的阻力水平来更有效地训练。

作文

In the realm of modern technology and engineering, the term propulsion assisted refers to systems or mechanisms that enhance the movement of vehicles or objects through various means. This concept is particularly significant in fields such as aerospace, marine engineering, and even automotive design. The idea behind propulsion assisted systems is to improve efficiency, speed, and overall performance by utilizing additional forces to aid in motion. For instance, in aviation, many aircraft are equipped with propulsion assisted technologies that allow them to achieve greater speeds and improved fuel efficiency. These systems often work in conjunction with traditional engines, providing an extra boost during takeoff or when climbing to cruising altitude.One prominent example of propulsion assisted technology is found in hybrid vehicles. These cars combine a conventional internal combustion engine with an electric motor, allowing for a more efficient use of energy. The electric motor provides additional power, especially during acceleration, which can significantly reduce fuel consumption and emissions. This dual-system approach exemplifies how propulsion assisted mechanisms can lead to more sustainable transportation solutions.In marine applications, propulsion assisted systems are also becoming increasingly popular. Many modern ships utilize advanced technologies such as water jets or pod propulsion systems that enhance maneuverability and speed. These systems work alongside traditional propellers, giving vessels the ability to navigate through challenging waters more effectively. By integrating propulsion assisted technologies, shipbuilders can create vessels that are not only faster but also more environmentally friendly, as they often consume less fuel and produce fewer emissions.The aerospace industry has seen remarkable advancements in propulsion assisted systems as well. For example, some space launch vehicles employ solid rocket boosters to provide additional thrust during liftoff. These boosters are jettisoned after their fuel is expended, allowing the main engine to continue its journey into space. This method of propulsion assisted flight enables rockets to reach higher altitudes and speeds than they could achieve with their main engines alone.Moreover, research into new propulsion assisted technologies continues to evolve, with scientists exploring innovative materials and designs that could revolutionize transportation. Concepts such as electromagnetic propulsion or ion drives are being investigated for their potential to offer unprecedented speeds and efficiencies. As these technologies develop, they hold the promise of transforming how we travel, making it faster, cheaper, and more sustainable.In conclusion, the concept of propulsion assisted systems is integral to advancing technology across various industries. By enhancing movement through additional forces, these systems contribute to improved performance, efficiency, and sustainability. Whether in aviation, marine engineering, or automotive design, propulsion assisted technologies are paving the way for the future of transportation, showcasing the ingenuity and creativity of human engineering. As we look ahead, it is clear that the continued development of these systems will play a crucial role in shaping our world and addressing the challenges of mobility in the 21st century.

在现代科技和工程领域，短语propulsion assisted指的是通过各种方式增强车辆或物体运动的系统或机制。这个概念在航空航天、海洋工程甚至汽车设计等领域尤为重要。propulsion assisted系统背后的理念是通过利用额外的力量来辅助运动，从而提高效率、速度和整体性能。例如，在航空领域，许多飞机配备了propulsion assisted技术，使其能够达到更高的速度和改善燃油效率。这些系统通常与传统引擎协同工作，在起飞或爬升到巡航高度时提供额外的助力。一个显著的propulsion assisted技术实例出现在混合动力汽车中。这些汽车将传统的内燃机与电动马达结合在一起，使能量的使用更加高效。电动马达在加速时提供额外的动力，这可以显著减少燃料消耗和排放。这种双系统方法展现了如何通过propulsion assisted机制实现更可持续的运输解决方案。在海洋应用中，propulsion assisted系统也越来越受欢迎。许多现代船只采用先进的技术，如水喷射器或舵机推进系统，增强了机动性和速度。这些系统与传统螺旋桨协同工作，使船只能够更有效地在复杂水域中航行。通过整合propulsion assisted技术，造船商能够建造出不仅更快，而且更环保的船只，因为它们往往消耗更少的燃料并产生更少的排放。航空航天工业在propulsion assisted系统方面也取得了显著进展。例如，一些航天发射载具在发射时使用固体火箭助推器来提供额外的推力。这些助推器在燃料耗尽后会被抛弃，允许主引擎继续其进入太空的旅程。这种propulsion assisted飞行的方法使火箭能够达到比仅靠主引擎更高的高度和速度。此外，对新propulsion assisted技术的研究仍在不断发展，科学家们正在探索创新材料和设计，这些可能会彻底改变交通运输。电磁推进或离子驱动等概念正在被研究，以其提供前所未有的速度和效率的潜力。随着这些技术的发展，它们承诺将改变我们的旅行方式，使之更快、更便宜、更可持续。总之，propulsion assisted系统的概念对于推动各行业的技术进步至关重要。通过额外的力量增强运动，这些系统有助于提高性能、效率和可持续性。无论是在航空、海洋工程还是汽车设计中，propulsion assisted技术都在为未来的交通铺平道路，展示了人类工程的聪明才智和创造力。展望未来，显然这些系统的持续发展将在塑造我们的世界和应对21世纪的出行挑战中发挥关键作用。