combined propulsion plant

简明释义

联合推进装置

英英释义

例句

1.A combined propulsion plant 综合推进装置 can significantly reduce emissions compared to traditional systems.

与传统系统相比，综合推进装置综合推进装置可以显著减少排放。

2.The military's new strategy involves deploying ships powered by a combined propulsion plant 综合推进装置 for better stealth.

军方的新战略涉及部署由综合推进装置综合推进装置驱动的舰船，以实现更好的隐蔽性。

3.Engineers are testing the combined propulsion plant 综合推进装置 for optimal performance in various sea conditions.

工程师们正在测试综合推进装置综合推进装置以确保在各种海况下的最佳性能。

4.The research focused on improving the reliability of the combined propulsion plant 综合推进装置 in extreme temperatures.

研究重点是提高综合推进装置综合推进装置在极端温度下的可靠性。

5.The new naval vessel is equipped with a state-of-the-art combined propulsion plant 综合推进装置 that enhances fuel efficiency.

这艘新型海军舰艇配备了最先进的综合推进装置综合推进装置，提高了燃油效率。

作文

The concept of a combined propulsion plant is increasingly relevant in the field of modern engineering, particularly in maritime and aerospace applications. A combined propulsion plant refers to a system that integrates multiple types of propulsion methods to optimize performance and efficiency. This innovative approach can significantly enhance the operational capabilities of vessels and aircraft, allowing them to achieve greater speeds, improved fuel economy, and reduced emissions.In the maritime industry, the implementation of a combined propulsion plant typically involves the use of both traditional diesel engines and advanced electric propulsion systems. The diesel engines provide the primary power source for high-speed travel, while the electric motors can be employed for quieter, more efficient operations during low-speed maneuvers or when in port. This dual-system setup not only maximizes fuel efficiency but also minimizes environmental impact, which is a growing concern in today’s eco-conscious world.Moreover, the versatility of a combined propulsion plant allows for better adaptability to various marine conditions. For instance, during rough weather, the propulsion system can be adjusted to utilize the most effective power source based on the specific challenges presented by the environment. This flexibility ensures that vessels can maintain optimal performance under diverse operational scenarios.In the aerospace sector, the principles of a combined propulsion plant are applied in hybrid aircraft designs, which combine traditional jet engines with electric propulsion systems. This combination aims to reduce fuel consumption and greenhouse gas emissions, aligning with global initiatives to promote sustainable aviation practices. By utilizing electric propulsion during takeoff and landing phases, aircraft can operate more quietly and efficiently, contributing to less noise pollution in urban areas.The development of combined propulsion plants is also essential in the context of future transportation technologies, such as autonomous vehicles and drones. These systems require highly efficient and reliable propulsion methods that can adapt to various flight profiles and mission requirements. As research and technology continue to advance, we can expect to see even more innovative applications of combined propulsion plants in diverse fields.In conclusion, the combined propulsion plant represents a significant advancement in engineering that offers numerous benefits across various industries. By integrating different propulsion methods, these systems enhance performance, improve fuel efficiency, and reduce environmental impacts. As we move towards a more sustainable future, the importance of combined propulsion plants will only continue to grow, paving the way for innovative solutions in transportation and beyond.

“组合推进系统”的概念在现代工程领域越来越相关，特别是在海洋和航空应用中。“组合推进系统”是指集成多种推进方式的系统，以优化性能和效率。这种创新的方法可以显著增强船舶和飞机的操作能力，使它们能够实现更高的速度、改善燃油经济性和减少排放。在海事工业中，实施“组合推进系统”通常涉及使用传统的柴油发动机和先进的电动推进系统。柴油发动机为高速旅行提供主要动力源，而电动马达则可以在低速操控或停靠时用于更安静、更高效的操作。这种双系统设置不仅最大限度地提高了燃油效率，还最小化了环境影响，这在当今环保意识日益增强的世界中尤为重要。此外，“组合推进系统”的灵活性使其能够更好地适应各种海洋条件。例如，在恶劣天气条件下，推进系统可以根据环境带来的具体挑战进行调整，以利用最有效的动力源。这种灵活性确保了船舶在多样化的操作场景下能够保持最佳性能。在航空航天领域，“组合推进系统”的原理被应用于混合动力飞机设计，这些设计结合了传统喷气发动机和电动推进系统。这种组合旨在减少燃料消耗和温室气体排放，符合全球推动可持续航空实践的倡议。通过在起飞和着陆阶段利用电动推进，飞机可以更安静、更高效地运行，从而减少城市地区的噪音污染。“组合推进系统”的发展在未来交通技术（如自动驾驶车辆和无人机）的背景下也至关重要。这些系统需要高度高效和可靠的推进方法，能够适应各种飞行配置和任务要求。随着研究和技术的不断进步，我们可以期待在各个领域看到“组合推进系统”的更多创新应用。总之，“组合推进系统”代表了工程领域的一项重大进展，给各个行业带来了诸多好处。通过集成不同的推进方式，这些系统提升了性能、改善了燃油效率并减少了环境影响。随着我们朝着更可持续的未来迈进，“组合推进系统”的重要性只会继续增长，为交通运输及其他领域的创新解决方案铺平道路。