auxiliary power system

简明释义

辅机动力系统

英英释义

例句

1.In case of a power failure, the auxiliary power system 辅助电源系统 can provide backup electricity to critical equipment.

在停电的情况下，辅助电源系统 辅助电源系统可以为关键设备提供备用电力。

2.The auxiliary power system 辅助电源系统 in electric vehicles helps maintain battery life by managing energy consumption.

电动车中的辅助电源系统 辅助电源系统通过管理能量消耗来帮助维持电池寿命。

3.The aircraft's auxiliary power system 辅助电源系统 ensures that essential systems remain operational during ground maintenance.

飞机的辅助电源系统 辅助电源系统确保在地面维护期间重要系统保持运行。

4.The ship's auxiliary power system 辅助电源系统 is vital for operating navigation lights and communication devices when the main engines are off.

船舶的辅助电源系统 辅助电源系统在主引擎关闭时，对于操作导航灯和通讯设备至关重要。

5.During testing, engineers monitored the auxiliary power system 辅助电源系统 to ensure it functioned correctly under load.

在测试期间，工程师监控了辅助电源系统 辅助电源系统以确保其在负载下正常工作。

作文

The modern world relies heavily on technology, and one of the critical components that ensure the smooth functioning of various systems is the auxiliary power system. An auxiliary power system refers to a secondary power source that provides energy to essential systems when the main power supply is unavailable or insufficient. This is particularly important in sectors such as aviation, maritime, and even in large buildings. Without an effective auxiliary power system, many operations could be disrupted, leading to safety concerns and financial losses.In aviation, for example, aircraft are equipped with auxiliary power systems that can supply power while the main engines are not running. This allows pilots to start the aircraft systems and maintain essential functions like lighting, climate control, and communication equipment before takeoff. The reliability of these systems is crucial, as any failure could endanger the safety of passengers and crew. Moreover, airports also utilize auxiliary power systems to support ground operations, ensuring that aircraft can be serviced efficiently without relying solely on the aircraft's engines.Similarly, in maritime applications, ships are often equipped with auxiliary power systems to provide electricity while docked or during emergencies. These systems allow for the operation of critical onboard systems such as navigation, communication, and safety equipment without needing to run the main engines, which can help conserve fuel and reduce emissions. The implementation of auxiliary power systems in ships is not only a matter of convenience but also a regulatory requirement in many regions to minimize environmental impact.In the context of large buildings, auxiliary power systems play a vital role in maintaining operations during power outages. Many commercial buildings are equipped with backup generators that activate automatically when the main power supply fails. These systems ensure that critical services like elevators, fire alarms, and security systems remain operational, thereby safeguarding the occupants and protecting property. The design and implementation of an effective auxiliary power system in buildings require careful planning to ensure that it can handle the necessary load and respond quickly in emergencies.Furthermore, the advancement of technology has led to the development of more efficient and sustainable auxiliary power systems. Renewable energy sources, such as solar panels and wind turbines, can be integrated into these systems, allowing for cleaner energy production. This shift towards greener alternatives not only helps reduce carbon footprints but also enhances the resilience of power systems against fluctuations in energy supply.In conclusion, the significance of the auxiliary power system cannot be overstated. Whether in aviation, maritime, or building infrastructure, these systems provide a vital safety net that ensures operations can continue smoothly in the face of power disruptions. As technology continues to evolve, the integration of more sustainable practices into auxiliary power systems will likely become increasingly important, contributing to a more reliable and environmentally friendly energy future.

现代世界在很大程度上依赖于技术，而确保各种系统顺利运行的关键组成部分之一就是辅助电源系统。辅助电源系统指的是在主电源不可用或不足时，为重要系统提供能量的备用电源。这在航空、海事，甚至大型建筑等行业尤为重要。如果没有有效的辅助电源系统，许多操作可能会受到干扰，从而导致安全隐患和经济损失。例如，在航空领域，飞机配备了辅助电源系统，可以在主发动机未启动时提供电力。这使得飞行员能够在起飞前启动飞机系统并维持照明、气候控制和通信设备等基本功能。这些系统的可靠性至关重要，因为任何故障都可能危及乘客和机组人员的安全。此外，机场还利用辅助电源系统来支持地面操作，确保飞机能够高效地进行服务，而不必完全依赖飞机的发动机。同样，在海事应用中，船舶通常配备辅助电源系统，以便在停靠或紧急情况下提供电力。这些系统允许在不需要运行主发动机的情况下操作导航、通信和安全设备等关键船上系统，从而帮助节省燃料并减少排放。在许多地区，船舶实施辅助电源系统不仅是便利问题，还是法规要求，以尽量减少对环境的影响。在大型建筑的背景下，辅助电源系统在停电期间维护运营方面发挥着至关重要的作用。许多商业建筑配备了备用发电机，当主电源失败时会自动启动。这些系统确保电梯、火警报警器和安全系统等关键服务保持运行，从而保障居民的安全和保护财产。设计和实施有效的辅助电源系统需要仔细规划，以确保其能够处理必要的负载并在紧急情况下快速响应。此外，技术的进步导致了更高效和可持续的辅助电源系统的发展。可再生能源，如太阳能电池板和风力涡轮机，可以集成到这些系统中，实现更清洁的能源生产。这种向更环保替代方案的转变不仅有助于减少碳足迹，还增强了电源系统对能源供应波动的韧性。总之，辅助电源系统的重要性不容小觑。无论是在航空、海事还是建筑基础设施中，这些系统都提供了一个重要的安全网，确保在电力中断的情况下操作可以顺利进行。随着技术的不断发展，将更多可持续实践融入辅助电源系统将变得愈加重要，为更可靠和环保的能源未来做出贡献。