ground-speed regulator

简明释义

前进速度调节器

英英释义

例句

1.During taxiing, the ground-speed regulator ensures the plane moves at a safe pace.

在滑行过程中，地速调节器确保飞机以安全的速度移动。

2.The pilot adjusted the ground-speed regulator to maintain a steady speed during landing.

飞行员调整了地速调节器以在着陆时保持稳定速度。

3.The aircraft's ground-speed regulator automatically compensates for wind changes.

飞机的地速调节器会自动补偿风速变化。

4.In adverse weather conditions, the ground-speed regulator helps prevent skidding on the runway.

在恶劣天气条件下，地速调节器有助于防止在跑道上打滑。

5.Technicians performed routine checks on the ground-speed regulator before the flight.

技术人员在飞行前对地速调节器进行了例行检查。

作文

In the realm of aviation, precision and control are paramount for ensuring safety and efficiency. One of the critical components that contribute to this is the ground-speed regulator, a device designed to maintain an aircraft's speed relative to the ground during various phases of flight. Understanding how this mechanism operates and its significance can greatly enhance our appreciation for modern aviation technology.The ground-speed regulator plays a vital role in the overall performance of an aircraft. It works by constantly monitoring the speed of the aircraft as it travels over the ground, adjusting the engine power output accordingly. This regulation is particularly important during takeoff and landing, where maintaining an optimal speed can mean the difference between a successful maneuver and a potential mishap.For instance, during takeoff, the ground-speed regulator ensures that the aircraft reaches the necessary speed for liftoff without exceeding limits that could lead to a stall. By managing the throttle inputs, the regulator helps pilots achieve the right balance between thrust and drag, allowing for a smooth ascent into the sky. Similarly, during landing, the device assists in controlling the descent speed, ensuring that the aircraft touches down safely on the runway.Moreover, the ground-speed regulator is not only crucial for the operational aspects of flying but also contributes to fuel efficiency. By optimizing the speed of the aircraft, it helps reduce fuel consumption, which is a significant factor in the economics of airline operations. In an era where environmental concerns are increasingly at the forefront, such efficiency measures are essential for sustainable aviation practices.In addition to its technical functions, the ground-speed regulator embodies the advancements in engineering and technology that have transformed aviation. The development of this device reflects years of research and innovation aimed at enhancing flight safety and performance. Pilots, engineers, and technicians all rely on the precise workings of this system to ensure that flights are conducted smoothly and safely.Furthermore, understanding the ground-speed regulator can also provide insights into the broader context of aviation safety protocols. Regulations set forth by aviation authorities often require that aircraft be equipped with such devices to ensure compliance with safety standards. This regulatory framework underscores the importance of technology in safeguarding lives and maintaining operational integrity in the aviation industry.In conclusion, the ground-speed regulator is an indispensable component of modern aircraft that significantly enhances flight safety, efficiency, and performance. As aviation continues to evolve, innovations like these will play a crucial role in shaping the future of air travel. For both aviation professionals and enthusiasts, a deeper understanding of such mechanisms not only enriches our knowledge but also fosters a greater appreciation for the complexities involved in flying. The next time you board an aircraft, take a moment to reflect on the sophisticated systems at play, including the vital ground-speed regulator, that work tirelessly to ensure your journey is safe and efficient.

在航空领域，精确和控制对于确保安全和效率至关重要。一个对这一点贡献巨大的关键组件是地面速度调节器，它是一种旨在维护飞机在飞行各个阶段相对于地面的速度的装置。理解这一机制的运作方式及其重要性，可以极大地增强我们对现代航空技术的欣赏。地面速度调节器在飞机的整体性能中发挥着重要作用。它通过不断监测飞机在地面上的速度，适时调整发动机的功率输出。这种调节在起飞和着陆过程中尤为重要，因为保持最佳速度可能意味着成功操作与潜在事故之间的差异。例如，在起飞过程中，地面速度调节器确保飞机达到起飞所需的速度，而不会超过可能导致失速的极限。通过管理油门输入，调节器帮助飞行员在推力和阻力之间实现正确的平衡，从而使飞机顺利升空。同样，在着陆过程中，该装置有助于控制下降速度，确保飞机安全降落在跑道上。此外，地面速度调节器不仅对飞行的操作方面至关重要，还能提高燃油效率。通过优化飞机的速度，它有助于减少燃油消耗，这在航空公司运营的经济学中是一个重要因素。在环境问题日益受到关注的时代，这种效率措施对于可持续航空实践至关重要。除了其技术功能外，地面速度调节器还体现了工程和技术的进步，这些进步改变了航空业。这一装置的发展反映了多年来为提高飞行安全和性能而进行的研究和创新。飞行员、工程师和技术人员都依赖于该系统的精确工作，以确保航班的顺利和安全进行。此外，了解地面速度调节器也可以提供对航空安全协议更广泛背景的见解。航空当局制定的法规通常要求飞机配备此类装置，以确保符合安全标准。这一监管框架强调了技术在保护生命和维护航空业运营完整性方面的重要性。总之，地面速度调节器是现代飞机不可或缺的组件，显著提升了飞行的安全性、效率和性能。随着航空业的不断发展，这类创新将在塑造未来航空旅行中发挥关键作用。对于航空专业人士和爱好者来说，更深入地理解这些机制不仅丰富了我们的知识，也促进了我们对飞行复杂性的更大欣赏。下次您登机时，不妨花一点时间反思那些辛勤工作以确保您的旅程安全高效的复杂系统，包括至关重要的地面速度调节器。