electric distribution network

简明释义

配电网

英英释义

例句

1.The city plans to invest in its electric distribution network 电力分配网络 to support renewable energy integration.

该市计划投资其电力分配网络 electric distribution network 以支持可再生能源的整合。

2.A failure in the electric distribution network 电力分配网络 can lead to widespread blackouts and service interruptions.

在电力分配网络 electric distribution network 中的故障可能导致大范围停电和服务中断。

3.Upgrading the electric distribution network 电力分配网络 can help reduce energy losses and improve efficiency.

升级电力分配网络 electric distribution network 可以帮助减少能量损失并提高效率。

4.The reliability of the electric distribution network 电力分配网络 is crucial for maintaining power supply during peak demand.

在高峰需求期间，电力分配网络 electric distribution network 的可靠性对于维持电力供应至关重要。

5.Smart meters are being installed throughout the electric distribution network 电力分配网络 to monitor usage in real-time.

智能电表正在整个电力分配网络 electric distribution network 中安装，以实时监测用电情况。

作文

The modern world relies heavily on electricity, making the efficiency and reliability of the electric distribution network (电力分配网络) crucial for daily life. An electric distribution network is a system that delivers electricity from transmission systems to consumers. It consists of various components including substations, transformers, and distribution lines that work together to ensure that electrical power reaches homes, businesses, and industries. This network is an essential part of the overall power supply chain, which begins at generation plants where electricity is produced.Understanding the importance of the electric distribution network (电力分配网络) requires a closer look at its components and functions. Substations play a vital role in this network by stepping down high voltage electricity from transmission lines to a lower voltage suitable for consumer use. These substations are strategically located to optimize the distribution of electricity across vast geographical areas.Transformers, another critical component of the electric distribution network (电力分配网络), are used to change the voltage levels as electricity moves through the system. They ensure that electricity can be transmitted over long distances without significant losses. The efficiency of these transformers directly impacts the overall performance of the distribution network.Distribution lines are the final link in the chain, carrying electricity from substations to end users. These lines can be overhead or underground and must be maintained regularly to prevent outages and ensure safety. The integrity of the electric distribution network (电力分配网络) is paramount; any failure in this system can lead to widespread blackouts, affecting millions of people.In recent years, there has been a growing focus on improving the resilience and sustainability of the electric distribution network (电力分配网络). With the advent of renewable energy sources such as solar and wind, traditional distribution networks must adapt to accommodate decentralized energy generation. This shift presents both challenges and opportunities for the existing infrastructure.Smart grid technology is one of the most promising advancements in enhancing the efficiency of the electric distribution network (电力分配网络). By integrating digital communication technology with the physical infrastructure, smart grids allow for real-time monitoring and management of electricity flow. This capability not only improves reliability but also enables better integration of renewable energy sources.Moreover, the transition to electric vehicles (EVs) poses additional demands on the electric distribution network (电力分配网络). As more consumers adopt EVs, the network needs to be able to handle increased loads, particularly during peak charging times. This necessitates upgrades to the existing infrastructure and innovative solutions to manage the additional demand efficiently.In conclusion, the electric distribution network (电力分配网络) is a fundamental component of modern society. Its ability to deliver reliable electricity to consumers is essential for economic growth and quality of life. As we move towards a more sustainable future, it is imperative to invest in and innovate within this network to meet the changing demands of energy consumption. Understanding the intricacies of the electric distribution network (电力分配网络) will help us appreciate the complex systems that power our lives every day.

现代社会在很大程度上依赖电力，因此，电力分配网络（electric distribution network）的效率和可靠性对于日常生活至关重要。电力分配网络是一个将电力从传输系统输送到消费者的系统。它由包括变电站、变压器和配电线路等各种组件组成，这些组件共同工作，以确保电力能够到达家庭、企业和工业。这个网络是整个电力供应链的重要组成部分，电力供应链从发电厂开始，电力在这里被生产。要理解电力分配网络（electric distribution network）的重要性，需要仔细研究其组件和功能。变电站在这个网络中发挥着至关重要的作用，通过将来自传输线路的高电压电力降低到适合消费者使用的低电压。这些变电站的战略位置优化了电力在广阔地理区域内的分配。变压器是电力分配网络（electric distribution network）的另一个关键组成部分，用于在电力通过系统时改变电压水平。它们确保电力可以在长距离内传输而不会显著损失。变压器的效率直接影响分配网络的整体性能。配电线路是链条中的最后一环，将电力从变电站输送到最终用户。这些线路可以是架空的或地下的，必须定期维护以防止停电并确保安全。电力分配网络（electric distribution network）的完整性至关重要；该系统的任何故障都可能导致大规模停电，影响数百万人。近年来，越来越多的关注集中在提高电力分配网络（electric distribution network）的韧性和可持续性上。随着太阳能和风能等可再生能源的出现，传统的分配网络必须适应去中心化的能源生产。这种转变为现有基础设施带来了挑战和机遇。智能电网技术是增强电力分配网络（electric distribution network）效率的最有前景的进展之一。通过将数字通信技术与物理基础设施相结合，智能电网允许实时监控和管理电力流动。这种能力不仅提高了可靠性，还使可再生能源的更好整合成为可能。此外，向电动车（EV）的过渡对电力分配网络（electric distribution network）提出了额外的需求。随着越来越多的消费者采用电动车，网络需要能够处理增加的负载，特别是在高峰充电时间。这需要对现有基础设施进行升级，并创新解决方案以有效管理额外的需求。总之，电力分配网络（electric distribution network）是现代社会的基本组成部分。它向消费者提供可靠电力的能力对于经济增长和生活质量至关重要。随着我们朝着更可持续的未来迈进，投资于这个网络并在其中进行创新，以满足不断变化的能源消费需求，是至关重要的。理解电力分配网络（electric distribution network）的复杂性将帮助我们欣赏每天为我们的生活提供电力的复杂系统。