main power system

简明释义

主动力系统

英英释义

例句

1.The technician will inspect the main power system to ensure it is functioning properly.

技术人员将检查主电力系统以确保其正常运作。

2.Regular maintenance of the main power system can prevent unexpected failures.

定期维护主电力系统可以防止意外故障。

3.Our facility relies on a robust main power system to maintain operations during peak hours.

我们的设施依赖于强大的主电力系统在高峰时段维持运营。

4.The engineers are designing a new main power system that is more energy-efficient.

工程师们正在设计一个更节能的新主电力系统。

5.In case of a blackout, the backup generator will kick in and support the main power system.

在停电的情况下，备用发电机将启动并支持主电力系统。

作文

The concept of a Main Power System is fundamental in the fields of engineering and energy management. It refers to the primary network of electrical components that generate, transmit, and distribute electricity to various loads. Understanding the Main Power System is crucial for anyone involved in electrical engineering or energy production because it encompasses the entire process of power generation from its source to its final destination. In modern society, the Main Power System plays a pivotal role in ensuring that our homes, industries, and infrastructure operate smoothly. It consists of several key components, including power plants, transmission lines, substations, and distribution networks. Each component has a specific function that contributes to the overall efficiency and reliability of the system. For instance, power plants convert various forms of energy—such as fossil fuels, nuclear energy, or renewable sources like wind and solar—into electrical energy. Once electricity is generated, it is transmitted over long distances through high-voltage transmission lines. This step is essential because it reduces energy losses that occur during transport. The electricity then reaches substations, where the voltage is lowered to a usable level before being distributed to consumers through local distribution networks. The operation of a Main Power System is complex and requires careful planning and coordination. Engineers must consider factors such as load demand, system stability, and fault tolerance. Load demand refers to the amount of electricity required by consumers at any given time, which can fluctuate based on the time of day, season, and economic activity. To maintain a reliable Main Power System, utilities employ various strategies, including demand response programs and energy storage solutions. Demand response programs encourage consumers to reduce their electricity usage during peak times, while energy storage systems, such as batteries, store excess energy for later use. These strategies help balance supply and demand, ensuring that the system remains stable and efficient. Moreover, the integration of renewable energy sources into the Main Power System presents both challenges and opportunities. While renewable sources can reduce reliance on fossil fuels and lower greenhouse gas emissions, they also introduce variability in power generation due to their dependence on weather conditions. Engineers must develop innovative solutions to incorporate these resources effectively while maintaining system reliability. In conclusion, the Main Power System is an essential aspect of modern life, providing the energy necessary for daily activities and economic growth. A thorough understanding of its components, operation, and challenges is vital for professionals in the field. As we move towards a more sustainable future, the evolution of the Main Power System will continue to be a critical area of focus, ensuring that we meet the energy needs of society while minimizing environmental impacts.

“主电力系统”这一概念在工程和能源管理领域是基础性的。它指的是生成、传输和分配电力到各个负载的电气组件的主要网络。理解“主电力系统”对于任何参与电气工程或能源生产的人来说都是至关重要的，因为它涵盖了从电力源到最终目的地的整个发电过程。在现代社会中，“主电力系统”在确保我们的家庭、工业和基础设施顺利运作方面发挥着关键作用。它由几个关键组件组成，包括发电厂、输电线路、变电站和配电网络。每个组件都有其特定功能，促进系统的整体效率和可靠性。例如，发电厂将各种形式的能源（如化石燃料、核能或可再生能源如风能和太阳能）转化为电能。一旦电力被生成，它就通过高压输电线路长距离传输。这一步骤至关重要，因为它减少了在运输过程中发生的能量损失。电力随后到达变电站，在那里电压被降低到可用水平，然后通过当地配电网络分配给消费者。“主电力系统”的运行是复杂的，需要仔细的规划和协调。工程师必须考虑负荷需求、系统稳定性和故障容忍度等因素。负荷需求是指消费者在任何给定时间所需的电力数量，这可能会根据一天中的时间、季节和经济活动而波动。为了保持可靠的“主电力系统”，公用事业公司采用各种策略，包括需求响应计划和能源存储解决方案。需求响应计划鼓励消费者在高峰时段减少电力使用，而能源存储系统（如电池）则储存多余的能量以备后用。这些策略有助于平衡供需，确保系统保持稳定和高效。此外，将可再生能源源融入“主电力系统”既带来了挑战，也提供了机遇。虽然可再生能源可以减少对化石燃料的依赖并降低温室气体排放，但它们也由于依赖天气条件而引入了发电的可变性。工程师必须开发创新的解决方案，以有效地整合这些资源，同时保持系统的可靠性。总之，“主电力系统”是现代生活的一个重要方面，提供了日常活动和经济增长所需的能源。全面理解其组件、运作和挑战对该领域的专业人士至关重要。随着我们朝着更可持续的未来迈进，“主电力系统”的演变将继续成为一个关键关注点，确保我们满足社会的能源需求，同时最小化环境影响。