electric power distribution

简明释义

电力分配

英英释义

例句

1.The engineers designed a smart grid to enhance electric power distribution 电力分配 across the region.

工程师们设计了一个智能电网，以增强该地区的电力分配。

2.A reliable electric power distribution 电力分配 system is crucial for urban development.

一个可靠的电力分配系统对城市发展至关重要。

3.The city is investing in new technologies to improve electric power distribution 电力分配 efficiency.

这座城市正在投资新技术，以提高电力分配的效率。

4.Regular maintenance is essential for effective electric power distribution 电力分配 in any community.

定期维护对于任何社区有效的电力分配至关重要。

5.The outage was caused by a failure in the electric power distribution 电力分配 network.

停电是由于电力分配网络的故障引起的。

作文

Electric power is an essential part of modern life, powering everything from our homes to our industries. One critical aspect of ensuring that electricity reaches consumers efficiently is through electric power distribution. This term refers to the process of delivering electricity from substations to individual consumers, whether they are residential, commercial, or industrial users. Understanding electric power distribution is vital for anyone interested in the energy sector, as it encompasses various components including transformers, distribution lines, and safety measures that ensure reliable service.The electric power distribution system begins at the power generation stage, where electricity is produced at power plants. Once generated, the electricity travels over high-voltage transmission lines to substations. At these substations, the voltage is reduced to a safer level suitable for distribution. This reduction is crucial because higher voltages can be dangerous for end-users.After the voltage is lowered, the electricity enters the electric power distribution network. This network consists of a complex web of distribution lines that carry electricity to neighborhoods and businesses. These lines can be overhead or underground, depending on the geographic and urban planning considerations. Overhead lines are often easier to install and maintain but can be more vulnerable to weather events like storms, while underground lines provide better protection but are more expensive to install.Another important component of electric power distribution is the transformer. Transformers play a key role in adjusting voltage levels as electricity is routed through the distribution network. They ensure that the voltage delivered to homes and businesses is at a safe and usable level. Without transformers, the electricity would either be too weak to power devices or too strong, posing a risk of damage.Safety is also a significant concern in electric power distribution. Utilities implement various safety measures to protect both their infrastructure and consumers. This includes regular maintenance of equipment, the installation of protective devices like circuit breakers, and the monitoring of power quality. Utilities must also comply with regulations set by government agencies to ensure that their distribution systems are safe and reliable.In recent years, advancements in technology have led to improvements in electric power distribution. Smart grid technology, for instance, allows for real-time monitoring and management of electricity flow. This innovation helps utilities respond quickly to outages and manage electricity demand more effectively. Additionally, the integration of renewable energy sources into the distribution network is becoming increasingly common, which adds another layer of complexity and opportunity for innovation.In conclusion, electric power distribution is a vital process that ensures electricity generated at power plants reaches end-users safely and efficiently. It involves various components such as substations, transformers, and distribution lines, all of which work together to deliver power. As technology continues to evolve, the methods and systems used for electric power distribution will likely become even more sophisticated, paving the way for a more sustainable and efficient energy future. Understanding this process is essential not only for professionals in the energy sector but also for consumers who rely on electricity for their daily lives.

电力是现代生活中不可或缺的一部分，为我们的家庭和工业提供动力。确保电力高效到达消费者的一个关键方面是通过电力分配。这个术语指的是将电力从变电站传送到个体消费者的过程，无论他们是住宅、商业还是工业用户。了解电力分配对于任何对能源行业感兴趣的人来说都是至关重要的，因为它包含了各种组件，包括变压器、配电线路以及确保可靠服务的安全措施。电力分配系统始于发电阶段，电力在发电厂生产。一旦发电，电力就通过高压输电线路传输到变电站。在这些变电站，电压被降低到适合分配的安全水平。这种降低至关重要，因为较高的电压对最终用户可能是危险的。电压降低后，电力进入电力分配网络。该网络由复杂的配电线路组成，将电力输送到社区和企业。这些线路可以是架空的或地下的，具体取决于地理和城市规划的考虑。架空线路通常更易于安装和维护，但在天气事件（如风暴）中更容易受到影响，而地下线路则提供更好的保护，但安装成本更高。电力分配的另一个重要组成部分是变压器。变压器在调整电压水平方面发挥着关键作用，因为电力在配电网络中传输时。它们确保送到家庭和企业的电压处于安全和可用的水平。如果没有变压器，电力要么太弱，无法为设备供电，要么过强，可能会造成损坏。安全也是电力分配中的一个重要问题。公用事业公司实施各种安全措施，以保护其基础设施和消费者。这包括对设备的定期维护、安装保护装置（如断路器）以及监测电力质量。公用事业公司还必须遵守政府机构制定的法规，以确保其分配系统安全可靠。近年来，技术的进步使得电力分配得到了改善。例如，智能电网技术允许实时监控和管理电力流动。这项创新帮助公用事业公司迅速响应停电并更有效地管理电力需求。此外，将可再生能源源纳入分配网络也变得越来越普遍，这为创新增加了另一个复杂性和机遇。总之，电力分配是一个至关重要的过程，确保在发电厂产生的电力安全高效地到达最终用户。它涉及多个组件，如变电站、变压器和配电线路，所有这些组件共同工作以传送电力。随着技术的不断发展，用于电力分配的方法和系统可能会变得更加复杂，为更可持续和高效的能源未来铺平道路。理解这一过程不仅对能源行业的专业人士至关重要，也对依赖电力进行日常生活的消费者同样重要。