complete engine failure

简明释义

发动机完全停车

英英释义

例句

1.The mechanic explained that complete engine failure can occur due to a lack of oil or overheating.

机械师解释说，完全的发动机故障可能是由于缺油或过热造成的。

2.The pilot had to perform an emergency landing due to complete engine failure shortly after takeoff.

飞行员在起飞后不久因完全的发动机故障不得不进行紧急着陆。

3.Emergency protocols were initiated when the ship reported complete engine failure in the middle of the ocean.

当船只在海洋中间报告完全的发动机故障时，紧急程序被启动。

4.During the flight, the pilot announced that they were experiencing complete engine failure, which means they had lost all power in one of the engines.

在飞行过程中，飞行员宣布他们遇到了完全的发动机故障，这意味着他们失去了一个发动机的所有动力。

5.After the race, the car suffered from complete engine failure, forcing the driver to retire early.

比赛结束后，汽车遭遇了完全的发动机故障，迫使驾驶员提前退赛。

作文

The concept of complete engine failure is one that evokes significant concern among pilots and aviation enthusiasts alike. When we talk about complete engine failure (完全发动机故障), we are referring to a situation where an aircraft's engine stops functioning entirely, leaving the pilot with no power to sustain flight. This scenario can occur due to various reasons, including mechanical malfunction, fuel exhaustion, or external factors such as bird strikes. Understanding the implications of complete engine failure is crucial for both safety and preparedness in aviation.Firstly, let us consider the potential causes of complete engine failure. Mechanical issues can arise from wear and tear over time, leading to critical parts of the engine failing unexpectedly. For instance, if a turbine blade fractures or if there is a severe oil leak, the engine may lose its ability to produce thrust. Additionally, fuel exhaustion can happen if the pilot miscalculates fuel consumption or fails to monitor fuel levels accurately. External factors, such as a bird strike, can also lead to catastrophic damage to the engine, resulting in complete engine failure (完全发动机故障).In the event of complete engine failure, pilots are trained to follow specific emergency procedures. The first step is to maintain control of the aircraft. Pilots must ensure that they do not stall the aircraft while trying to troubleshoot the issue. They are trained to glide the plane towards a suitable landing area, which could be an airport or an open field. The altitude at which the failure occurs plays a crucial role; higher altitudes provide more time for pilots to react and prepare for an emergency landing. Moreover, modern aircraft are often equipped with multiple engines, which significantly reduces the risk associated with complete engine failure. In multi-engine aircraft, if one engine fails, the other(s) can still provide sufficient thrust to maintain flight. This redundancy is a key aspect of aviation safety, allowing pilots to land safely even with an engine out of service.However, it is important to note that complete engine failure (完全发动机故障) is not limited to commercial aviation. General aviation aircraft, helicopters, and even drones can experience similar failures. Each type of aircraft has its own set of protocols and training to handle such emergencies. For instance, helicopter pilots must be particularly adept at managing engine failures since their craft relies heavily on a single engine to maintain lift.The aviation industry continuously works to enhance safety measures and reduce the likelihood of complete engine failure. Regular maintenance checks, adherence to operational limits, and advancements in technology all contribute to minimizing risks. Engine manufacturers are also investing in research to improve engine reliability and performance, ensuring that pilots can trust their equipment.In conclusion, complete engine failure (完全发动机故障) is a critical concept in aviation that requires thorough understanding and preparation. By recognizing the potential causes and knowing how to respond effectively, pilots can mitigate risks and enhance safety in the skies. Continuous improvements in technology and training further bolster the aviation industry's commitment to preventing such occurrences, ultimately ensuring a safer flying experience for all. As we move forward, it is essential for both pilots and passengers to remain informed about the complexities of aircraft systems and the importance of safety protocols in the event of emergencies.

‘完全发动机故障’的概念在飞行员和航空爱好者中引起了极大的关注。当我们谈论‘完全发动机故障’时，我们指的是飞机的发动机完全停止运转，使飞行员无法维持飞行。这种情况可能由于多种原因而发生，包括机械故障、燃料耗尽或外部因素（如鸟击）。理解‘完全发动机故障’的影响对于航空安全和应对准备至关重要。首先，让我们考虑‘完全发动机故障’的潜在原因。机械问题可能由于时间的推移导致磨损，从而使发动机的关键部件意外失效。例如，如果涡轮叶片断裂或出现严重的油漏，发动机可能会失去产生推力的能力。此外，如果飞行员错误计算燃料消耗或未能准确监测燃料水平，燃料耗尽也可能发生。外部因素，如鸟击，也可能导致发动机的灾难性损坏，从而导致‘完全发动机故障’。在发生‘完全发动机故障’时，飞行员经过培训以遵循特定的紧急程序。第一步是保持对飞机的控制。飞行员必须确保在尝试排除故障时不会使飞机失速。他们受过训练，能够将飞机滑向合适的着陆区域，这可能是机场或空旷的田野。发生故障的高度起着至关重要的作用；较高的高度为飞行员提供了更多的反应时间和准备紧急着陆的机会。此外，现代飞机通常配备多个发动机，这大大降低了与‘完全发动机故障’相关的风险。在多发动机飞机中，如果一个发动机失效，其他发动机仍然可以提供足够的推力来维持飞行。这种冗余是航空安全的关键方面，使飞行员即使在一个发动机失效的情况下也能安全着陆。然而，值得注意的是，‘完全发动机故障’不仅限于商业航空。通用航空飞机、直升机甚至无人机都可能经历类似的故障。每种类型的飞机都有自己的一套协议和培训来处理这种紧急情况。例如，直升机飞行员必须特别擅长管理发动机故障，因为他们的飞行器依赖单个发动机来维持升力。航空业不断努力增强安全措施，减少‘完全发动机故障’的可能性。定期维护检查、遵守操作限制和技术进步都助于降低风险。发动机制造商也在投资研究，以提高发动机的可靠性和性能，确保飞行员可以信任他们的设备。总之，‘完全发动机故障’是航空中一个关键的概念，需要深入理解和准备。通过认识潜在原因并有效响应，飞行员可以减轻风险，提高天空中的安全性。技术和培训的持续改进进一步增强了航空业对防止此类事件的承诺，最终确保所有人的飞行体验更安全。随着我们向前发展，飞行员和乘客都必须了解飞机系统的复杂性以及在紧急情况下安全协议的重要性。