engine failure sensing and shutdown system

简明释义

发动机故障指示与停车装置

英英释义

例句

1.During the simulation, the engine failure sensing and shutdown system successfully detected a malfunction and initiated a safe shutdown.

在模拟过程中，发动机故障检测和关闭系统成功检测到故障并启动了安全关闭。

2.An advanced engine failure sensing and shutdown system can minimize damage to the engine by shutting it down promptly.

先进的发动机故障检测和关闭系统可以通过迅速关闭发动机来最小化损害。

3.The aircraft was equipped with an engine failure sensing and shutdown system to prevent catastrophic failures during flight.

这架飞机配备了发动机故障检测和关闭系统，以防止飞行中的灾难性故障。

4.Pilots receive training on how to respond if the engine failure sensing and shutdown system activates.

飞行员接受培训，以了解如果发动机故障检测和关闭系统激活时该如何应对。

5.The maintenance team regularly checks the engine failure sensing and shutdown system to ensure its reliability.

维护团队定期检查发动机故障检测和关闭系统以确保其可靠性。

作文

In the world of aviation and automotive engineering, safety is paramount. One of the critical systems designed to ensure safety during operation is the engine failure sensing and shutdown system. This advanced technology plays a crucial role in detecting any anomalies or failures within an engine, allowing for immediate action to prevent catastrophic outcomes. The engine failure sensing and shutdown system is designed to monitor various parameters such as temperature, pressure, and vibrations that could indicate potential engine failure. When these parameters deviate from their normal operating ranges, the system triggers alarms and initiates a shutdown sequence to protect both the vehicle and its occupants.The importance of the engine failure sensing and shutdown system cannot be overstated. In aircraft, for example, engine failure can lead to loss of control and serious accidents. Therefore, having a reliable system in place that can sense failure and automatically shut down the engine is vital for pilot safety and passenger protection. Similarly, in automotive applications, this system can prevent engine damage and potential accidents, ensuring that drivers and passengers remain safe on the road.Technologically, the engine failure sensing and shutdown system incorporates various sensors and control units that work together to provide real-time monitoring and response capabilities. These sensors collect data continuously, analyzing it against established thresholds. If a sensor detects an issue, the system can activate warning lights and alerts to inform the operator of the problem. Depending on the severity of the detected failure, the system may also initiate an automatic shutdown of the engine, allowing the vehicle to come to a safe stop without further risk.Moreover, the engine failure sensing and shutdown system is not only limited to traditional combustion engines but has also evolved to encompass electric and hybrid vehicles. As the automotive industry shifts towards more sustainable technologies, the need for robust failure detection and response mechanisms remains critical. Electric engines, while generally more reliable, still require monitoring systems to manage battery health and performance, which the engine failure sensing and shutdown system can adapt to.In conclusion, the engine failure sensing and shutdown system is an indispensable component in modern engineering that enhances safety across various modes of transportation. By providing early detection of engine issues and enabling quick shutdown procedures, this system significantly reduces the risk of accidents and protects lives. As technology continues to advance, we can expect even more sophisticated versions of the engine failure sensing and shutdown system to emerge, further improving safety standards in aviation and automotive industries. Understanding this system's function and importance is essential for anyone involved in engineering, safety management, or transportation technology.

在航空和汽车工程的世界中，安全是至关重要的。为确保操作期间的安全而设计的关键系统之一是发动机故障检测和关闭系统。这项先进技术在检测发动机内部的任何异常或故障方面发挥着至关重要的作用，允许立即采取行动以防止灾难性后果。发动机故障检测和关闭系统旨在监测各种参数，例如温度、压力和振动，这些参数可能表明潜在的发动机故障。当这些参数偏离其正常操作范围时，系统会触发警报并启动关闭序列，以保护车辆及其乘员。发动机故障检测和关闭系统的重要性不容小觑。例如，在飞机中，发动机故障可能导致失去控制和严重事故。因此，拥有一个可靠的系统，能够感知故障并自动关闭发动机，对飞行员安全和乘客保护至关重要。类似地，在汽车应用中，该系统可以防止发动机损坏和潜在事故，确保驾驶员和乘客在道路上保持安全。在技术上，发动机故障检测和关闭系统结合了各种传感器和控制单元，这些组件共同工作，提供实时监测和响应能力。这些传感器持续收集数据，将其分析与既定阈值进行比较。如果传感器检测到问题，系统可以激活警示灯和警报，以通知操作员出现问题。根据检测到的故障的严重程度，系统还可以启动发动机的自动关闭，使车辆能够安全停车，而不会带来进一步风险。此外，发动机故障检测和关闭系统不仅限于传统的内燃机，还发展到涵盖电动和混合动力车辆。随着汽车行业向更可持续的技术转变，对强大故障检测和响应机制的需求仍然至关重要。电动发动机虽然通常更可靠，但仍需要监控系统来管理电池健康和性能，而发动机故障检测和关闭系统可以适应这些需求。总之，发动机故障检测和关闭系统是现代工程中不可或缺的组成部分，提升了各种交通方式的安全性。通过提供早期故障检测和快速关闭程序，该系统显著降低了事故风险，并保护了生命。随着技术的不断进步，我们可以期待更复杂版本的发动机故障检测和关闭系统的出现，进一步提高航空和汽车行业的安全标准。理解该系统的功能和重要性对任何参与工程、安全管理或交通技术的人来说都是至关重要的。