integrated propulsion

简明释义

综合推进装置符号

英英释义

例句

1.The new electric aircraft features an integrated propulsion system that enhances fuel efficiency.

这款新型电动飞机采用了集成推进系统，提高了燃油效率。

2.The spacecraft utilizes an integrated propulsion system for both launch and maneuvering in space.

该航天器利用集成推进系统进行发射和在太空中的机动。

3.The integrated propulsion technology allows for smoother transitions between different flight modes.

该集成推进技术允许在不同飞行模式之间实现更平稳的过渡。

4.Our research focuses on the benefits of integrated propulsion in reducing emissions.

我们的研究重点是集成推进在减少排放方面的好处。

5.Engineers are developing a hybrid vehicle with an integrated propulsion mechanism for better performance.

工程师们正在开发一种混合动力车辆，配备集成推进机制，以提高性能。

作文

In recent years, the field of aerospace engineering has seen significant advancements, particularly in the development of new technologies aimed at improving efficiency and performance. One such innovation is the concept of integrated propulsion, which refers to a system that combines various propulsion methods into a single, cohesive unit. This approach not only enhances the overall functionality of aircraft but also contributes to environmental sustainability by reducing emissions and fuel consumption. The traditional methods of propulsion often involved separate systems for different phases of flight, leading to inefficiencies and increased complexity. With integrated propulsion systems, engineers are able to streamline operations by utilizing a combination of engines and power sources that work together seamlessly. For instance, hybrid systems that incorporate both jet engines and electric motors can optimize performance during takeoff, cruising, and landing. This integration allows for better energy management and can significantly lower operational costs. Moreover, the advantages of integrated propulsion extend beyond mere efficiency. It also opens up new possibilities for aircraft design. By incorporating multiple propulsion technologies, designers can create lighter and more aerodynamic structures. This is particularly important as the industry moves towards developing electric and hybrid-electric aircraft, which promise to revolutionize air travel. Such designs not only improve fuel efficiency but also reduce noise pollution, making air travel more appealing to the public. Another crucial aspect of integrated propulsion is its contribution to safety. In the event of a failure in one propulsion system, the integrated nature of these systems means that alternative power sources can take over, ensuring that the aircraft remains controllable. This redundancy is vital in enhancing the safety of modern aircraft, which is always a top priority for manufacturers and regulatory bodies alike. Furthermore, integrated propulsion systems are designed with adaptability in mind. As technology continues to evolve, these systems can be upgraded or modified to incorporate new advancements without requiring a complete redesign of the aircraft. This flexibility not only extends the lifespan of the aircraft but also allows operators to keep pace with the latest developments in propulsion technology. In conclusion, the emergence of integrated propulsion represents a significant step forward in the aerospace industry. By merging various propulsion methods into a single, efficient system, engineers are paving the way for safer, more economical, and environmentally friendly air travel. As we look to the future, it is clear that integrated propulsion will play a crucial role in shaping the next generation of aircraft, making air travel more sustainable and accessible for everyone. The continued investment in research and development in this area will undoubtedly yield further innovations that will benefit both the industry and society as a whole.

近年来，航空航天工程领域取得了显著进展，特别是在开发旨在提高效率和性能的新技术方面。其中一种创新是集成推进的概念，它指的是将多种推进方法结合成一个统一的系统。这种方法不仅增强了飞机的整体功能，还有助于通过减少排放和燃料消耗来实现环境可持续性。传统的推进方法通常涉及不同飞行阶段的独立系统，导致效率低下和复杂性增加。通过集成推进系统，工程师能够通过利用相互协作的多种发动机和动力源来简化操作。例如，结合喷气发动机和电动机的混合动力系统可以优化起飞、巡航和着陆过程中的性能。这种集成使得更好的能源管理成为可能，并可以显著降低运营成本。此外，集成推进的优势不仅仅限于效率。它还为飞机设计开辟了新的可能性。通过结合多种推进技术，设计师可以创造出更轻、更具空气动力学特性的结构。这一点尤其重要，因为行业正在向开发电动和混合电动飞机迈进，这些飞机有望彻底改变航空旅行。这种设计不仅提高了燃油效率，还减少了噪音污染，使航空旅行对公众更具吸引力。另一个关键方面是集成推进对安全性的贡献。如果某一推进系统发生故障，这些系统的集成特性意味着替代动力源可以接管，确保飞机保持可控性。这种冗余对于提高现代飞机的安全性至关重要，这始终是制造商和监管机构的首要任务。此外，集成推进系统的设计考虑了适应性。随着技术的不断发展，这些系统可以进行升级或修改，以整合新的进展，而无需对飞机进行完全重新设计。这种灵活性不仅延长了飞机的使用寿命，还使运营商能够跟上推进技术的最新发展。总之，集成推进的出现代表了航空航天工业向前迈出的重要一步。通过将各种推进方法合并为一个高效的系统，工程师们正在为更安全、更经济和环保的航空旅行铺平道路。展望未来，显然集成推进将在塑造下一代飞机方面发挥至关重要的作用，使航空旅行对每个人都更加可持续和可及。对此领域的持续研发投资无疑会带来进一步的创新，造福整个行业和社会。