engine failure sensing and shut-down system

简明释义

发动机故障指示与停车装置

英英释义

例句

1.The car's engine failure sensing and shut-down system alerted the driver of a critical issue.

汽车的发动机故障检测与关闭系统提醒驾驶员出现了严重问题。

2.During the test, the engine failure sensing and shut-down system successfully detected a simulated engine failure.

在测试中，发动机故障检测与关闭系统成功检测到模拟的发动机故障。

3.Maintenance checks ensure that the engine failure sensing and shut-down system is functioning properly.

维护检查确保发动机故障检测与关闭系统正常运行。

4.The aircraft is equipped with an engine failure sensing and shut-down system to ensure safety during flight.

这架飞机配备了发动机故障检测与关闭系统以确保飞行安全。

5.If the engine failure sensing and shut-down system activates, pilots must follow emergency protocols immediately.

如果发动机故障检测与关闭系统激活，飞行员必须立即遵循紧急程序。

作文

In the realm of aviation and engineering, safety is paramount. One crucial aspect of ensuring the safety of aircraft operations is the implementation of an engine failure sensing and shut-down system. This system plays a vital role in monitoring the performance of an aircraft's engines and promptly responding to any signs of failure. The engine failure sensing and shut-down system is designed to detect anomalies such as unusual vibrations, temperature spikes, or pressure drops that may indicate a malfunction. When such irregularities are detected, the system automatically initiates a sequence of actions to mitigate potential hazards. The primary function of the engine failure sensing and shut-down system is to enhance pilot awareness and control during critical situations. By providing real-time data on engine performance, pilots can make informed decisions about whether to continue flying or to execute emergency procedures. For instance, if the system identifies a significant engine failure, it may trigger an alert that informs the pilot to prepare for a possible engine shut-down. This proactive approach can prevent catastrophic accidents and ensure the safety of passengers and crew. Moreover, the engine failure sensing and shut-down system contributes to the overall reliability of aircraft operations. In modern aviation, engines are complex machines that require constant monitoring. The integration of advanced sensors and computer algorithms allows for continuous assessment of engine health. This data-driven approach not only enhances safety but also improves maintenance practices. By identifying potential issues before they escalate, airlines can conduct timely repairs and reduce downtime, ultimately leading to more efficient operations. In addition to its technical functions, the engine failure sensing and shut-down system also embodies a commitment to innovation in the aviation industry. As technology advances, these systems are becoming increasingly sophisticated, incorporating artificial intelligence and machine learning to predict failures before they occur. This forward-thinking mindset is essential for the future of aviation, where safety and efficiency must go hand in hand. In conclusion, the engine failure sensing and shut-down system is a critical component of modern aviation safety. By continuously monitoring engine performance and providing timely alerts, this system empowers pilots to respond effectively to emergencies. Furthermore, it contributes to the reliability and efficiency of aircraft operations, showcasing the industry's dedication to innovation and safety. As we look to the future, the evolution of such systems will undoubtedly play a pivotal role in shaping the landscape of aviation, ensuring that safety remains at the forefront of every flight.

在航空和工程领域，安全至关重要。确保飞机操作安全的一个关键方面是实施发动机故障监测与关闭系统。该系统在监控飞机发动机性能并及时响应任何故障迹象方面发挥着重要作用。发动机故障监测与关闭系统旨在检测异常情况，例如不寻常的振动、温度飙升或压力下降，这些都可能表明发生故障。当检测到此类不规则时，系统会自动启动一系列操作以减轻潜在危险。发动机故障监测与关闭系统的主要功能是增强飞行员在关键情况下的意识和控制。通过提供实时的发动机性能数据，飞行员可以根据情况做出是否继续飞行或执行紧急程序的明智决定。例如，如果系统识别到显著的发动机故障，它可能会触发警报，通知飞行员准备可能的发动机关停。这种主动的方法可以防止灾难性事故，确保乘客和机组人员的安全。此外，发动机故障监测与关闭系统还提高了飞机操作的整体可靠性。在现代航空中，发动机是复杂的机器，需要不断监控。先进传感器和计算机算法的集成允许对发动机健康状况进行持续评估。这种数据驱动的方法不仅增强了安全性，还改善了维护实践。通过在问题升级之前识别潜在问题，航空公司可以进行及时维修，减少停机时间，最终实现更高效的运营。除了其技术功能外，发动机故障监测与关闭系统还体现了航空工业对创新的承诺。随着技术的进步，这些系统变得越来越复杂，结合了人工智能和机器学习，以预测故障发生前的情况。这种前瞻性的思维方式对于航空的未来至关重要，因为安全和效率必须并行发展。总之，发动机故障监测与关闭系统是现代航空安全的关键组成部分。通过持续监控发动机性能并提供及时警报，该系统使飞行员能够有效应对紧急情况。此外，它有助于飞机操作的可靠性和效率，展示了行业对创新和安全的承诺。展望未来，这类系统的演变无疑将在塑造航空领域的格局中发挥关键作用，确保安全始终是每次飞行的重中之重。