engine controls

简明释义

发动机控制装置

英英释义

例句

1.Regular maintenance of the engine controls is essential for aircraft safety.

定期维护发动机控制对航空安全至关重要。

2.Understanding the engine controls is critical for new pilots.

新飞行员理解发动机控制至关重要。

3.The pilot adjusted the engine controls to increase the thrust during takeoff.

飞行员调整了发动机控制以增加起飞时的推力。

4.During the simulation, the trainee learned how to operate the engine controls effectively.

在模拟训练中，学员学习了如何有效操作发动机控制。

5.The technician inspected the engine controls for any signs of wear or damage.

技术人员检查了发动机控制是否有磨损或损坏的迹象。

作文

In the world of aviation, the term engine controls refers to the mechanisms and systems that manage the performance and operation of an aircraft's engines. These controls play a vital role in ensuring that the engines function efficiently and safely, allowing pilots to maintain optimal flight conditions. The engine controls are not only crucial for takeoff and landing but also for cruising at high altitudes. They enable pilots to adjust the thrust produced by the engines, which is essential for managing speed and altitude during various phases of flight.The engine controls consist of several components, including throttle levers, engine gauges, and control displays. Throttle levers allow pilots to increase or decrease the amount of fuel and air entering the engines, thus controlling their power output. Engine gauges provide real-time data on various parameters such as temperature, pressure, and RPM (revolutions per minute), enabling pilots to monitor engine performance closely.Moreover, modern aircraft are equipped with advanced digital engine controls that integrate computer systems to enhance performance and safety. These systems can automatically adjust engine parameters based on flight conditions, reducing the pilot's workload and minimizing the risk of human error. For instance, fly-by-wire technology uses electronic signals to control the engines rather than traditional mechanical linkages, providing more precise and responsive control.Understanding engine controls is essential for aspiring pilots and aviation enthusiasts alike. It involves not only knowing how to operate these controls but also comprehending the underlying principles of engine mechanics and aerodynamics. Training programs for pilots often include extensive coursework on engine controls, where they learn about the different types of engines, their operational characteristics, and how to troubleshoot potential issues.In addition to their technical aspects, engine controls also have a significant impact on fuel efficiency and environmental sustainability. With rising concerns about climate change, the aviation industry is continually seeking ways to reduce its carbon footprint. Efficient engine controls can help optimize fuel consumption, leading to lower emissions and reduced operating costs for airlines. This is particularly important as the industry faces increasing pressure to adopt greener practices and technologies.Furthermore, understanding engine controls is crucial during emergency situations. Pilots must be trained to respond quickly and effectively to engine failures or malfunctions. Knowledge of how to manipulate the engine controls can mean the difference between a safe landing and a catastrophic failure. For example, if one engine fails on a multi-engine aircraft, pilots must know how to adjust the remaining engines' thrust to maintain stability and control during flight.In conclusion, the concept of engine controls encompasses a wide range of systems and mechanisms essential for the safe and efficient operation of aircraft engines. From basic throttle management to advanced digital systems, these controls are integral to modern aviation. Aspiring pilots and aviation professionals must gain a comprehensive understanding of engine controls to ensure they can operate aircraft safely and efficiently. As the industry continues to evolve, the importance of mastering engine controls will only grow, especially in the context of sustainability and technological advancement.

在航空领域，术语发动机控制指的是管理飞机发动机性能和操作的机制和系统。这些控制在确保发动机高效、安全运行方面发挥着至关重要的作用，使飞行员能够维持最佳飞行条件。发动机控制不仅对起飞和着陆至关重要，而且在高空巡航中也必不可少。它们使飞行员能够调整发动机产生的推力，这对于在飞行的各个阶段管理速度和高度至关重要。发动机控制由几个组件组成，包括油门杆、发动机仪表和控制显示器。油门杆允许飞行员增加或减少进入发动机的燃料和空气，从而控制其功率输出。发动机仪表提供有关温度、压力和转速（RPM）等各种参数的实时数据，使飞行员能够密切监控发动机性能。此外，现代飞机配备了先进的数字发动机控制，集成计算机系统以增强性能和安全性。这些系统可以根据飞行条件自动调整发动机参数，从而减轻飞行员的工作负担，最小化人为错误的风险。例如，飞线技术使用电子信号来控制发动机，而不是传统的机械连接，提供更精确和响应迅速的控制。理解发动机控制对有志成为飞行员和航空爱好者的人来说至关重要。这不仅涉及如何操作这些控制，还包括理解发动机机械和空气动力学的基本原理。飞行员的培训课程通常包括关于发动机控制的广泛课程，他们学习不同类型的发动机、其操作特性以及如何排除潜在问题。除了其技术方面，发动机控制还对燃油效率和环境可持续性产生重大影响。随着对气候变化的关注不断上升，航空业不断寻求减少碳足迹的方法。高效的发动机控制可以帮助优化燃油消耗，从而降低排放并减少航空公司的运营成本。这在行业面临日益加大的压力以采用更环保的做法和技术时尤为重要。此外，理解发动机控制在紧急情况下也至关重要。飞行员必须接受训练，以快速有效地应对发动机故障或故障。掌握如何操作发动机控制可能意味着安全着陆与灾难性故障之间的区别。例如，如果多发飞机上的一台发动机失效，飞行员必须知道如何调整剩余发动机的推力，以保持飞行的稳定性和控制。总之，发动机控制的概念涵盖了一系列对飞机发动机安全和高效操作至关重要的系统和机制。从基本的油门管理到先进的数字系统，这些控制是现代航空的重要组成部分。有志成为飞行员和航空专业人士的人必须全面了解发动机控制，以确保他们能够安全高效地操作飞机。随着行业的不断发展，掌握发动机控制的重要性只会增加，特别是在可持续性和技术进步的背景下。