emergency air inlet

简明释义

安全气孔

英英释义

例句

1.Make sure to check the emergency air inlet before starting the engine to prevent overheating.

在启动引擎之前，确保检查应急空气进气口以防止过热。

2.The aircraft's emergency air inlet is designed to provide oxygen during sudden cabin depressurization.

飞机的应急空气进气口旨在在机舱突然减压时提供氧气。

3.The ventilation system automatically activates the emergency air inlet when carbon monoxide levels rise.

当一氧化碳浓度升高时，通风系统会自动激活应急空气进气口。

4.In case of a fire, ensure the emergency air inlet is unobstructed to allow fresh air into the building.

在发生火灾的情况下，确保应急空气进气口没有被阻塞，以便让新鲜空气进入建筑物。

5.During the drill, we practiced how to open the emergency air inlet in case of smoke inhalation.

在演习中，我们练习了在吸入烟雾的情况下如何打开应急空气进气口。

作文

In modern engineering, especially in the field of aerospace and automotive design, safety is of paramount importance. One critical component that contributes to the safety of vehicles, particularly in emergency situations, is the emergency air inlet. This device plays a vital role in ensuring that the engine and other essential systems receive adequate airflow when standard operations are compromised. Understanding the function and significance of the emergency air inlet can provide insights into how engineers prioritize safety and efficiency in their designs.The emergency air inlet is designed to activate under specific conditions, such as when the primary air intake is blocked or damaged. For instance, in an aircraft, if the main engine air intake becomes obstructed due to debris or structural failure, the emergency air inlet ensures that the engine continues to receive the necessary air for combustion. This is crucial for maintaining thrust and preventing catastrophic engine failure, which could lead to loss of control of the aircraft.In automotive applications, the emergency air inlet serves a similar purpose. It is often found in high-performance vehicles where engine cooling is critical. If the primary cooling system fails or becomes less effective, the emergency air inlet can redirect airflow to the engine, helping to maintain optimal operating temperatures. This feature not only protects the engine from overheating but also enhances overall vehicle performance during critical situations.The design of the emergency air inlet must take into account various factors, including aerodynamics, placement, and responsiveness. Engineers use advanced simulations and testing to ensure that these inlets function effectively under a range of conditions. The placement of the emergency air inlet is carefully considered to maximize airflow while minimizing drag. This balance is essential for maintaining the vehicle's performance and efficiency.Moreover, the emergency air inlet is often integrated with other safety systems within the vehicle. For example, in some aircraft, the activation of the emergency air inlet may be linked to warning systems that alert the pilot to potential issues with the primary air intake. This integration allows for a more comprehensive approach to safety, enabling quick responses to emergencies.In conclusion, the emergency air inlet is a crucial component in both aerospace and automotive engineering, designed to ensure that engines continue to operate safely and efficiently during emergencies. Its ability to provide alternative airflow pathways significantly reduces the risk of engine failure and enhances the safety of the vehicle. As technology advances, the design and functionality of the emergency air inlet will likely continue to evolve, further improving safety standards in the industry. Understanding this component is essential for anyone interested in engineering, as it exemplifies the innovative solutions developed to address complex challenges in vehicle design and operation.

在现代工程，尤其是航空航天和汽车设计领域，安全至关重要。一个对车辆安全，特别是在紧急情况下起关键作用的组件是紧急空气进口。该设备在确保发动机和其他重要系统在标准操作受损时获得足够气流方面发挥着重要作用。理解紧急空气进口的功能和重要性，可以深入了解工程师如何在设计中优先考虑安全和效率。紧急空气进口设计为在特定条件下激活，例如当主空气进气口被阻塞或损坏时。例如，在飞机中，如果主发动机空气进气口因碎片或结构故障而被阻塞，紧急空气进口可以确保发动机继续获得必要的空气用于燃烧。这对于维持推力和防止灾难性发动机故障至关重要，这可能导致飞机失去控制。在汽车应用中，紧急空气进口起着类似的作用。它通常出现在高性能车辆中，其中发动机冷却至关重要。如果主要冷却系统故障或效果降低，紧急空气进口可以将气流重新引导到发动机，帮助保持最佳工作温度。这个特性不仅保护发动机免于过热，还在关键情况下增强整体车辆性能。紧急空气进口的设计必须考虑多个因素，包括空气动力学、位置和响应性。工程师使用先进的模拟和测试来确保这些进口在各种条件下有效运作。紧急空气进口的放置经过仔细考虑，以最大化气流，同时最小化阻力。这种平衡对于保持车辆的性能和效率至关重要。此外，紧急空气进口通常与车辆内其他安全系统集成。例如，在某些飞机中，紧急空气进口的激活可能与警告系统相连，提醒飞行员主空气进气口可能出现的问题。这种集成使得对紧急情况的反应更加全面，能够快速应对。总之，紧急空气进口是航空航天和汽车工程中的一个关键组件，旨在确保发动机在紧急情况下继续安全有效地运行。它提供替代气流通道的能力显著降低了发动机故障的风险，并增强了车辆的安全性。随着技术的进步，紧急空气进口的设计和功能可能会继续演变，进一步提高行业的安全标准。理解这个组件对任何对工程感兴趣的人来说都是必不可少的，因为它体现了为解决复杂的车辆设计和操作挑战而开发的创新解决方案。