fail safe operation

简明释义

安全运行

英英释义

例句

1.The new software update includes a fail safe operation that prevents data loss during unexpected shutdowns.

新的软件更新包含一个安全失效操作，可以防止在意外关机期间数据丢失。

2.Our manufacturing process incorporates fail safe operation to minimize risks of equipment failure.

我们的制造过程包含安全失效操作以最小化设备故障的风险。

3.In aviation, the cockpit is designed with fail safe operation features to ensure pilot safety in emergencies.

在航空领域，驾驶舱设计了安全失效操作功能，以确保飞行员在紧急情况下的安全。

4.The automated system was designed with a fail safe operation mode that automatically shuts down during critical failures.

自动化系统设计了一个安全失效操作模式，在严重故障时会自动关闭。

5.The power grid utilizes fail safe operation mechanisms to maintain stability during outages.

电网利用安全失效操作机制在停电期间保持稳定性。

作文

In today's world, where technology plays a pivotal role in our daily lives, the concept of fail safe operation becomes increasingly important. A fail safe operation refers to a design feature that ensures a system remains safe and functional even when it encounters a failure. This principle is crucial in various industries, including aviation, nuclear energy, and automotive manufacturing, where the stakes are incredibly high. The aim is to prevent catastrophic failures that could lead to loss of life or significant damage to property and the environment.One of the most prominent examples of fail safe operation can be seen in commercial aviation. Aircraft are equipped with multiple redundant systems to ensure that if one system fails, others can take over its functions seamlessly. For instance, modern airplanes have dual hydraulic systems that control essential functions such as landing gear and brakes. If one hydraulic system fails, the other can still operate, allowing the pilot to land safely. This redundancy is a testament to how critical fail safe operation is in protecting passengers and crew members.Similarly, in the nuclear energy sector, fail safe operation is implemented to prevent accidents that could have disastrous consequences. Nuclear reactors are designed with multiple safety systems that will automatically engage in the event of an anomaly. For example, if a reactor's temperature exceeds safe limits, cooling systems are activated to bring the temperature down. Additionally, containment structures are built to withstand extreme conditions, ensuring that any potential release of radioactive material is contained. These measures exemplify how fail safe operation is not just a regulatory requirement but a moral obligation to safeguard human life and the environment.In the automotive industry, manufacturers are increasingly integrating fail safe operation features into their vehicles. Advanced Driver Assistance Systems (ADAS) are designed to enhance vehicle safety by providing features such as automatic braking and lane-keeping assistance. In the event of a system malfunction, these features are designed to revert to manual control, allowing the driver to maintain control of the vehicle. This layered approach to safety illustrates the importance of fail safe operation in everyday transportation.However, achieving a true fail safe operation is not without its challenges. Engineers must consider various failure modes and ensure that their designs can withstand unexpected scenarios. This requires rigorous testing and validation processes to identify potential weaknesses in the system. Moreover, as technology evolves, so do the risks associated with it. Cybersecurity threats pose a new challenge for fail safe operation, as hackers may attempt to exploit vulnerabilities in critical systems. Therefore, continuous monitoring and updating of safety protocols are essential in maintaining the integrity of fail safe operation.In conclusion, the concept of fail safe operation is integral to the safety and reliability of complex systems across various industries. By ensuring that systems can operate safely even in the face of failures, we protect lives and assets from potential disasters. As technology continues to advance, the principles of fail safe operation will remain crucial in guiding engineers and designers to create safer environments for everyone. It is a reminder that while failures may occur, our preparedness and response can make all the difference in ensuring safety and resilience in our interconnected world.

在当今这个技术在我们日常生活中扮演着关键角色的世界里，‘安全失效操作’这一概念变得越来越重要。‘安全失效操作’指的是一种设计特性，确保系统即使在遇到故障时也能保持安全和功能。这一原则在航空、核能和汽车制造等多个行业至关重要，因为这些领域的风险极高。其目的是防止可能导致生命损失或对财产和环境造成重大损害的灾难性故障。‘安全失效操作’最显著的例子可以在商业航空中看到。飞机配备了多个冗余系统，以确保如果一个系统出现故障，其他系统可以无缝接管其功能。例如，现代飞机有双液压系统来控制诸如起落架和刹车等基本功能。如果一个液压系统失败，另一个可以继续工作，允许飞行员安全着陆。这种冗余证明了‘安全失效操作’在保护乘客和机组人员方面的重要性。同样，在核能行业，‘安全失效操作’被实施以防止可能导致灾难性后果的事故。核反应堆的设计具有多重安全系统，这些系统在异常情况下会自动启动。例如，如果反应堆的温度超过安全限制，冷却系统会被激活以降低温度。此外， containment 结构被建造以承受极端条件，确保任何潜在的放射性物质释放都被遏制。这些措施体现了‘安全失效操作’不仅仅是法规要求，更是保护人类生命和环境的道德义务。在汽车行业，制造商越来越多地将‘安全失效操作’特性集成到他们的车辆中。先进的驾驶辅助系统（ADAS）旨在通过提供自动刹车和车道保持辅助等功能来增强车辆安全。在系统故障的情况下，这些功能被设计为恢复到手动控制，使驾驶员能够保持对车辆的控制。这种分层的安全方法说明了在日常交通中‘安全失效操作’的重要性。然而，实现真正的‘安全失效操作’并非没有挑战。工程师必须考虑各种故障模式，并确保他们的设计能够承受意外情况。这需要严格的测试和验证过程，以识别系统中的潜在弱点。此外，随着技术的发展，与之相关的风险也在不断演变。网络安全威胁对‘安全失效操作’构成了新的挑战，因为黑客可能试图利用关键系统中的漏洞。因此，持续监测和更新安全协议对于维护‘安全失效操作’的完整性至关重要。总之，‘安全失效操作’的概念是各个行业复杂系统安全和可靠性的核心。通过确保系统即使在故障面前也能安全运行，我们保护人们的生命和资产免受潜在灾难的影响。随着技术的不断进步，‘安全失效操作’的原则将继续在指导工程师和设计者创造更安全的环境方面发挥重要作用。这提醒我们，尽管故障可能会发生，但我们的准备和响应可以在确保我们相互关联的世界的安全和韧性方面产生巨大的差异。