engine local control

简明释义

机旁操纵

英英释义

例句

1.The software update improved the functionality of engine local control for better diagnostics.

软件更新改善了发动机本地控制的功能，以便进行更好的诊断。

2.During the test flight, the pilot engaged engine local control to monitor engine parameters closely.

在测试飞行中，飞行员启用了发动机本地控制以密切监控发动机参数。

3.Using engine local control, the crew was able to isolate issues with the engine quickly.

通过使用发动机本地控制，机组人员能够快速隔离发动机的问题。

4.The technician used engine local control to adjust the fuel mixture for optimal performance.

技术员使用发动机本地控制来调整燃油混合比，以达到最佳性能。

5.The maintenance manual explains how to activate engine local control in case of an emergency.

维护手册解释了在紧急情况下如何激活发动机本地控制。

作文

In modern aviation, the concept of engine local control plays a crucial role in ensuring the safe and efficient operation of aircraft. This term refers to the ability of pilots to manage engine performance directly from the cockpit, allowing for precise adjustments to thrust and other parameters based on real-time conditions during flight. Understanding engine local control is essential for both pilots and engineers, as it impacts the overall performance of the aircraft and its response to various operational scenarios.The significance of engine local control becomes particularly evident during critical phases of flight, such as takeoff and landing. During takeoff, pilots must ensure that the engines are producing the correct amount of thrust to achieve optimal lift-off speed. With engine local control, they can make immediate adjustments if any discrepancies arise, thus enhancing safety and performance. Similarly, during landing, the ability to control the engine power locally allows pilots to manage their descent rate effectively, ensuring a smooth touchdown.Moreover, engine local control is not only about managing thrust; it also involves monitoring various engine parameters, such as temperature, pressure, and fuel flow. By having direct access to these metrics, pilots can make informed decisions that affect the aircraft's performance. For example, if an engine begins to overheat, the pilot can reduce thrust or adjust fuel flow to prevent damage, showcasing the importance of engine local control in maintaining engine health.From an engineering perspective, understanding engine local control is vital for designing advanced avionics systems that enhance pilot capabilities. Modern aircraft are equipped with sophisticated systems that provide real-time data on engine performance, allowing pilots to make quick decisions. Engineers must ensure that these systems are intuitive and reliable, enabling effective engine local control even in challenging situations.Training programs for pilots also emphasize the importance of engine local control. Simulator training often includes scenarios where pilots must respond to engine failures or malfunctions, requiring them to utilize their skills in local control effectively. This hands-on experience prepares them for real-world situations, reinforcing the critical nature of being able to manage engine performance directly.In conclusion, engine local control is a fundamental aspect of aviation that enhances both safety and efficiency. It empowers pilots to make immediate adjustments to engine performance, which is crucial during critical flight phases. Furthermore, it underscores the importance of real-time monitoring and decision-making in aviation. As technology continues to advance, the principles of engine local control will remain integral to the evolution of aircraft operations and pilot training, ensuring that safety and performance standards continue to improve in the aviation industry.

在现代航空中，发动机局部控制的概念在确保飞机安全高效运行方面发挥着至关重要的作用。这个术语指的是飞行员能够直接从驾驶舱管理发动机性能的能力，允许根据飞行过程中的实时条件对推力和其他参数进行精确调整。理解发动机局部控制对于飞行员和工程师来说都是至关重要的，因为它影响着飞机的整体性能及其对各种操作场景的响应。发动机局部控制的重要性在飞行的关键阶段尤为明显，例如起飞和着陆。在起飞过程中，飞行员必须确保发动机产生正确的推力，以达到最佳的起飞速度。通过发动机局部控制，如果出现任何差异，他们可以立即进行调整，从而增强安全性和性能。同样，在着陆过程中，能够局部控制发动机动力使飞行员能够有效管理下降率，确保平稳着陆。此外，发动机局部控制不仅仅是管理推力；它还涉及监测各种发动机参数，如温度、压力和燃料流量。通过直接访问这些指标，飞行员可以做出影响飞机性能的明智决策。例如，如果发动机开始过热，飞行员可以减少推力或调整燃料流量以防止损坏，这突显了发动机局部控制在维护发动机健康方面的重要性。从工程的角度来看，理解发动机局部控制对于设计增强飞行员能力的先进航空电子系统至关重要。现代飞机配备了复杂的系统，提供有关发动机性能的实时数据，使飞行员能够快速做出决策。工程师必须确保这些系统直观且可靠，使得即使在挑战性情况下也能有效地进行发动机局部控制。飞行员的培训项目也强调发动机局部控制的重要性。模拟器培训通常包括飞行员必须应对发动机故障或故障的场景，要求他们有效地利用局部控制技能。这种实践经验为他们准备了现实世界的情况，加强了在管理发动机性能时能够进行局部控制的关键性质。总之，发动机局部控制是航空中的一个基本方面，增强了安全性和效率。它使飞行员能够对发动机性能进行即时调整，这在飞行的关键阶段至关重要。此外，它强调了实时监控和决策在航空中的重要性。随着技术的不断进步，发动机局部控制的原则将继续成为飞机操作和飞行员培训演变的核心，确保航空工业的安全和性能标准持续提高。