auxiliary power plant

简明释义

辅助动力装置辅助电源设备

英英释义

例句

1.The ship's main engine failed, but the crew quickly activated the auxiliary power plant 辅助电源厂 to maintain essential functions.

船的主引擎故障，但船员迅速启动了辅助电源厂 auxiliary power plant以维持基本功能。

2.During maintenance of the main power supply, the auxiliary power plant 辅助电源厂 kept the facility running smoothly.

在主电源维护期间，辅助电源厂 auxiliary power plant保持设施平稳运行。

3.The auxiliary power plant 辅助电源厂 provides backup energy for the hospital during emergencies.

在紧急情况下，辅助电源厂 auxiliary power plant为医院提供备用能源。

4.The auxiliary power plant 辅助电源厂 is crucial for ensuring uninterrupted service in telecommunications.

为了确保电信服务不中断，辅助电源厂 auxiliary power plant至关重要。

5.In case of a blackout, the auxiliary power plant 辅助电源厂 ensures that critical systems remain operational.

在停电的情况下，辅助电源厂 auxiliary power plant确保关键系统保持运行。

作文

In today's world, where energy consumption is constantly on the rise, the importance of efficient power generation systems cannot be overstated. One such system that plays a crucial role in ensuring a reliable supply of electricity is the auxiliary power plant. An auxiliary power plant (辅助电源厂) serves as a backup source of energy that supports the main power generation facilities during peak demand or emergencies. This essay will explore the significance of auxiliary power plants, their operational mechanisms, and their impact on the energy sector.Firstly, the primary function of an auxiliary power plant is to provide additional electricity when the main power plants are unable to meet the demand. This situation often arises during peak usage times, such as hot summer days when air conditioning units are running at full capacity. By having an auxiliary power plant in place, utility companies can ensure that they do not face blackouts or brownouts, which can disrupt daily life and economic activities.Moreover, auxiliary power plants are essential during emergencies. For instance, natural disasters like hurricanes or earthquakes can damage primary power generation facilities, leading to widespread outages. In such scenarios, auxiliary power plants can quickly kick in to restore power, providing critical support to hospitals, emergency services, and the public. This capability highlights the resilience that auxiliary power plants bring to the overall energy infrastructure.The operational mechanism of an auxiliary power plant can vary depending on its design and purpose. Some auxiliary power plants utilize diesel generators, while others may rely on renewable energy sources such as solar panels or wind turbines. The choice of technology often depends on factors such as availability of resources, cost-effectiveness, and environmental considerations. For example, a solar-powered auxiliary power plant can significantly reduce carbon emissions compared to fossil fuel-based systems, aligning with global efforts to combat climate change.In addition to their role in energy supply, auxiliary power plants also contribute to grid stability. They can help balance supply and demand fluctuations by adjusting their output in response to real-time conditions. This flexibility is particularly important in modern energy systems that increasingly incorporate variable renewable energy sources, which can lead to unpredictability in power generation.Furthermore, the integration of auxiliary power plants into the energy landscape encourages investments in technology and infrastructure. As the demand for clean and reliable energy continues to grow, governments and private entities are more likely to invest in innovative solutions that include auxiliary power plants. This trend not only enhances energy security but also creates job opportunities in the renewable energy sector.In conclusion, auxiliary power plants are vital components of our energy systems, providing backup power during peak demand and emergencies while enhancing grid stability. Their diverse operational mechanisms and potential for integration with renewable energy technologies position them as essential assets in the transition towards a sustainable energy future. As we continue to navigate the challenges of energy consumption and climate change, the role of auxiliary power plants will undoubtedly become even more significant, ensuring that we have a reliable and resilient power supply for generations to come.

在当今这个能源消费不断上升的世界中，高效发电系统的重要性不容小觑。一个在确保可靠电力供应方面发挥关键作用的系统是辅助电源厂。辅助电源厂（auxiliary power plant）作为一种备用能源来源，在主发电设施无法满足需求时提供支持，尤其是在高峰需求或紧急情况下。本文将探讨辅助电源厂的重要性、其运行机制以及对能源行业的影响。首先，辅助电源厂的主要功能是在主电厂无法满足需求时提供额外的电力。这种情况通常发生在用电高峰期，例如炎热的夏季，当空调设备全力运转时。通过设立辅助电源厂，公用事业公司可以确保不会面临停电或降压，这会干扰日常生活和经济活动。此外，辅助电源厂在紧急情况下也至关重要。例如，自然灾害如飓风或地震可能会损坏主要发电设施，导致广泛停电。在这种情况下，辅助电源厂可以迅速启动以恢复电力，为医院、应急服务和公众提供关键支持。这种能力突显了辅助电源厂为整体能源基础设施带来的韧性。辅助电源厂的操作机制可能因其设计和目的而异。一些辅助电源厂利用柴油发电机，而其他则可能依赖于可再生能源，如太阳能电池板或风力涡轮机。技术选择通常取决于资源的可用性、成本效益和环境考虑。例如，太阳能驱动的辅助电源厂相比于基于化石燃料的系统可以显著减少碳排放，这与全球应对气候变化的努力相一致。除了在能源供应中的作用外，辅助电源厂还助力于电网稳定。它们可以通过实时条件调整输出，帮助平衡供需波动。这种灵活性在现代能源系统中尤为重要，因为这些系统越来越多地纳入可变的可再生能源，这可能导致发电的不确定性。此外，将辅助电源厂纳入能源格局还鼓励了对技术和基础设施的投资。随着对清洁和可靠能源需求的不断增长，政府和私营实体更有可能投资于包括辅助电源厂在内的创新解决方案。这一趋势不仅增强了能源安全，还在可再生能源领域创造了就业机会。总之，辅助电源厂是我们能源系统的重要组成部分，在高峰需求和紧急情况下提供备用电力，同时增强电网稳定性。它们多样的操作机制和与可再生能源技术整合的潜力使其成为向可持续能源未来过渡的重要资产。随着我们继续应对能源消费和气候变化的挑战，辅助电源厂的角色无疑将变得更加重要，确保我们为子孙后代提供可靠和有韧性的电力供应。