auxiliary power system

简明释义

辅机动力系统辅机电力系统

英英释义

例句

1.When the main generator fails, the auxiliary power system 辅助动力系统 kicks in to provide backup energy.

当主发电机故障时，辅助动力系统 auxiliary power system 启动以提供备用能源。

2.In case of an emergency, the auxiliary power system 辅助动力系统 will activate automatically to keep the lights on.

在紧急情况下，辅助动力系统 auxiliary power system 将自动激活以保持灯光亮起。

3.The yacht is equipped with a robust auxiliary power system 辅助动力系统 for navigation when the sails are not in use.

这艘游艇配备了强大的辅助动力系统 auxiliary power system，用于在不使用帆时进行导航。

4.The airplane's auxiliary power system 辅助动力系统 ensures that essential systems remain operational during ground maintenance.

飞机的辅助动力系统 auxiliary power system 确保在地面维护期间基本系统保持运行。

5.The ship's auxiliary power system 辅助动力系统 allows crew members to operate essential equipment even when the main engine is off.

船只的辅助动力系统 auxiliary power system 允许船员在主引擎关闭时操作基本设备。

作文

In modern engineering and technology, the term auxiliary power system refers to a secondary power source that provides energy to support the main systems of a vehicle or an aircraft. These systems are essential for ensuring that critical functions continue to operate even when the primary power source is unavailable or insufficient. For instance, in commercial airplanes, the auxiliary power system allows for the operation of lights, climate control, and electronic systems while the main engines are not running. This capability is crucial during ground operations, where the aircraft needs to maintain a comfortable environment for passengers and crew without relying on the engines.The auxiliary power system typically consists of components such as generators, batteries, and inverters, which work together to provide electricity. In many cases, the system can be powered by a small turbine engine or a battery pack, depending on the specific requirements of the vehicle or aircraft. The use of an auxiliary power system enhances efficiency and safety, allowing for a seamless transition between power sources.Moreover, the importance of auxiliary power systems extends beyond aviation. In marine applications, ships utilize these systems to power navigation equipment, communication devices, and other vital systems when docked or at anchor. This ensures that the vessel remains operational and safe, even when the main engines are turned off. Similarly, in the context of electric vehicles, an auxiliary power system can provide additional energy for onboard systems, extending the functionality and comfort of the vehicle without draining the main battery.As technology advances, the design and implementation of auxiliary power systems continue to evolve. Innovations such as fuel cells and advanced battery technologies are being integrated into these systems, offering cleaner and more efficient alternatives to traditional power sources. This shift towards greener technologies aligns with global efforts to reduce carbon emissions and promote sustainability in transportation.In conclusion, the auxiliary power system plays a vital role in various modes of transportation, ensuring that essential functions remain operational regardless of the status of the main power source. By understanding the significance and functionality of these systems, we can appreciate their contribution to safety, efficiency, and comfort in our daily travels. As we move towards a more sustainable future, the evolution of auxiliary power systems will undoubtedly continue to shape the way we think about energy management in transportation.

在现代工程和技术中，短语辅助电源系统指的是一种次要电源，它为车辆或飞机的主要系统提供能量。这些系统对于确保在主电源不可用或不足时，关键功能能够继续运行至关重要。例如，在商业飞机中，辅助电源系统允许在主发动机未运行时，操作灯光、气候控制和电子系统。这种能力在地面操作期间至关重要，因为飞机需要在不依赖于发动机的情况下，为乘客和机组人员维持舒适的环境。辅助电源系统通常由发电机、电池和逆变器等组件组成，这些组件共同工作以提供电力。在许多情况下，该系统可以由小型涡轮发动机或电池组供电，具体取决于车辆或飞机的特定要求。使用辅助电源系统提高了效率和安全性，允许在电源之间无缝切换。此外，辅助电源系统的重要性超出了航空领域。在海洋应用中，船只利用这些系统为导航设备、通信设备和其他重要系统供电，当停靠或锚泊时。这确保了船舶在主发动机关闭时仍能保持正常运作和安全。同样，在电动车辆的背景下，辅助电源系统可以为车载系统提供额外的能量，延长车辆的功能和舒适性，而不消耗主电池。随着技术的进步，辅助电源系统的设计和实施也在不断演变。燃料电池和先进电池技术等创新正在被整合到这些系统中，提供比传统电源更清洁、更高效的替代方案。这一向绿色技术转变与全球减少碳排放和促进交通可持续发展的努力相一致。总之，辅助电源系统在各种交通方式中发挥着至关重要的作用，确保在主电源状态不佳时，基本功能仍然能够正常运行。通过理解这些系统的重要性和功能，我们可以欣赏它们对我们日常出行的安全、效率和舒适性的贡献。随着我们朝着更可持续的未来迈进，辅助电源系统的演变无疑将继续影响我们对交通能源管理的思考。