auxiliary power plant

简明释义

辅助动力装置

英英释义

例句

1.In case of a blackout, the auxiliary power plant will automatically start to supply power.

在停电的情况下，辅助电源厂会自动启动以供电。

2.The ship's auxiliary power plant provides electricity when the main engines are not running.

船舶的辅助电源厂在主发动机不运行时提供电力。

3.During maintenance, the auxiliary power plant ensures that critical systems remain operational.

在维护期间，辅助电源厂确保关键系统保持运行。

4.The efficiency of the auxiliary power plant can greatly affect overall fuel consumption.

辅助电源厂的效率会极大影响整体燃料消耗。

5.The auxiliary power plant is crucial for powering the onboard navigation systems.

为船上导航系统供电的辅助电源厂至关重要。

作文

In modern society, the demand for energy continues to rise, leading to a growing need for efficient power generation systems. One of the critical components in ensuring a stable and reliable energy supply is the auxiliary power plant. An auxiliary power plant (辅助电源厂) serves as a supplementary source of power that supports the main power generation facilities during peak demand or emergencies. This type of power plant plays a vital role in maintaining the balance between electricity supply and demand, especially in regions where the primary power sources are insufficient or prone to outages.The function of an auxiliary power plant can be understood better when we consider its role in various scenarios. For instance, during times of high electricity consumption, such as hot summer days when air conditioning usage surges, the main power plants may struggle to meet the increased demand. In such cases, the auxiliary power plant kicks in to provide the extra power needed, thus preventing blackouts and ensuring that consumers have access to electricity.Moreover, auxiliary power plants are essential during maintenance or unexpected failures of the primary power plants. When a primary facility goes offline for repairs or faces an unforeseen issue, the auxiliary power plant can take over the load, ensuring continuous power delivery. This capability is crucial for industries and businesses that rely heavily on a constant power supply to maintain their operations.In addition to their reliability, auxiliary power plants are often designed to be flexible and quick to deploy. They can utilize various energy sources, including natural gas, diesel, or renewable resources like solar and wind. This flexibility allows them to adapt to different energy demands and environmental considerations, making them a sustainable option in the energy mix.The integration of auxiliary power plants with smart grid technology further enhances their effectiveness. Smart grids enable real-time monitoring and management of electricity distribution, allowing for better coordination between the main power plants and auxiliary power plants. This technology helps to optimize energy use, reduce waste, and improve overall efficiency in the power generation process.However, the implementation of auxiliary power plants is not without challenges. The initial investment costs can be significant, and there are ongoing operational expenses associated with running these facilities. Additionally, regulatory hurdles and environmental concerns must be addressed, particularly when fossil fuels are used as the primary energy source. The shift towards cleaner energy solutions necessitates that auxiliary power plants also adapt by incorporating more renewable energy technologies.In conclusion, auxiliary power plants (辅助电源厂) are a crucial part of the energy landscape, providing essential support to the main power generation systems. Their ability to ensure reliability, flexibility, and efficiency makes them invaluable, especially in an era where energy demand is constantly increasing. As we continue to advance towards a more sustainable future, the role of auxiliary power plants will likely evolve, incorporating innovative technologies and renewable energy sources to meet the challenges of tomorrow's energy needs.

在现代社会，能源需求持续上升，导致对高效发电系统的需求日益增加。确保稳定可靠的能源供应的关键组成部分之一是辅助电源厂。辅助电源厂（auxiliary power plant）作为一种补充电源，支持主要发电设施在高峰需求或紧急情况下提供电力。这种类型的发电厂在维持电力供需平衡方面发挥着重要作用，尤其是在主要电源不足或容易出现停电的地区。当我们考虑辅助电源厂在各种场景中的作用时，可以更好地理解它的功能。例如，在用电高峰期，比如炎热的夏天，空调使用激增时，主要发电厂可能会难以满足增加的需求。在这种情况下，辅助电源厂会介入，提供所需的额外电力，从而防止停电，确保消费者能够获得电力。此外，辅助电源厂在主要电厂的维护或意外故障期间也是必不可少的。当主要设施因维修而下线或面临突发问题时，辅助电源厂可以接管负载，确保持续供电。这种能力对于依赖恒定电力供应来维持运营的行业和企业至关重要。除了可靠性外，辅助电源厂通常被设计为灵活且快速部署。它们可以利用多种能源，包括天然气、柴油或可再生资源，如太阳能和风能。这种灵活性使它们能够适应不同的能源需求和环境考虑，使其成为能源组合中的可持续选择。将辅助电源厂与智能电网技术整合进一步提高了其有效性。智能电网能够实时监测和管理电力分配，允许主要发电厂与辅助电源厂之间更好的协调。这项技术有助于优化能源使用，减少浪费，提高整体发电过程的效率。然而，实施辅助电源厂并非没有挑战。初始投资成本可能很高，运行这些设施的持续运营费用也不容忽视。此外，特别是在化石燃料被用作主要能源时，必须解决监管障碍和环境问题。向更清洁的能源解决方案转变需要辅助电源厂也通过整合更多可再生能源技术进行适应。总之，辅助电源厂（auxiliary power plant）是能源格局中至关重要的一部分，为主要发电系统提供必要的支持。它们确保可靠性、灵活性和效率的能力使其不可或缺，尤其是在能源需求不断增加的时代。随着我们继续朝着更可持续的未来迈进，辅助电源厂的角色可能会演变，结合创新技术和可再生能源，以应对未来能源需求的挑战。