transmission and disttrbution

简明释义

输电和配电

英英释义

例句

1.Our company specializes in the transmission and distribution 输电和配电 of renewable energy sources.

我们公司专注于可再生能源的输电和配电 输电和配电。

2.The city is investing in smart technologies to improve transmission and distribution 输电和配电 efficiency.

该市正在投资智能技术，以提高输电和配电 输电和配电的效率。

3.Understanding the challenges of transmission and distribution 输电和配电 helps in planning future energy projects.

理解输电和配电 输电和配电的挑战有助于规划未来的能源项目。

4.Upgrading the transmission and distribution 输电和配电 infrastructure is essential for reducing energy losses.

升级输电和配电 输电和配电基础设施对于减少能源损失至关重要。

5.The efficiency of the power grid relies heavily on the transmission and distribution 输电和配电 systems in place.

电网的效率在很大程度上依赖于现有的输电和配电 输电和配电系统。

作文

The modern world relies heavily on the efficient systems of energy supply, which are fundamentally based on the concepts of transmission and distribution. These two processes are crucial for delivering electricity from power plants to consumers, ensuring that homes, businesses, and industries have the energy they need to function. Understanding the intricacies of transmission and distribution is essential for grasping how our energy systems operate and evolve in response to growing demands and technological advancements.Firstly, let's break down what transmission entails. This phase involves the high-voltage transfer of electricity over long distances from generation sites, such as power plants, to substations. The purpose of transmission is to minimize energy loss during transport, which is achieved by using high voltages. When electricity travels through wires, it encounters resistance, which can lead to significant losses if the voltage is not sufficiently high. Therefore, transmission lines are designed to carry electricity at these elevated voltages, allowing for efficient movement across vast distances.Once the electricity reaches a substation, the next phase—distribution—begins. This process involves stepping down the high voltage to a level suitable for use in homes and businesses. The distribution network consists of lower voltage lines that deliver electricity directly to consumers. This stage is vital because it ensures that the electricity is at a safe and usable voltage when it arrives at its final destination. The distribution system also includes transformers, which play a critical role in adjusting the voltage levels.Moreover, the reliability of both transmission and distribution systems is paramount. Any disruptions in these networks can lead to blackouts or brownouts, affecting millions of people. Therefore, utilities invest heavily in maintaining and upgrading these infrastructures. This includes implementing smart grid technologies, which enhance the monitoring and management of electricity flows, making the systems more resilient and efficient.In recent years, the integration of renewable energy sources into the grid has posed new challenges and opportunities for transmission and distribution. As we shift towards cleaner energy solutions, such as solar and wind, the existing transmission and distribution networks must adapt to accommodate these variable and decentralized energy sources. This transition requires innovative approaches to manage energy supply and demand effectively, ensuring that the grid remains stable while integrating a higher proportion of renewables.In conclusion, the concepts of transmission and distribution are fundamental to our understanding of how electricity is delivered from generation points to end-users. As our energy landscape evolves with technological advancements and shifts towards sustainability, grasping the importance of transmission and distribution will be crucial for future energy planning and policy-making. The ongoing developments in this field will shape the way we consume energy, making it more reliable, efficient, and environmentally friendly for generations to come.

现代世界在能源供应的高效系统上依赖很大，这些系统基本上基于传输和分配的概念。这两个过程对于将电力从发电厂输送到消费者至关重要，确保家庭、企业和工业拥有正常运作所需的能源。理解传输和分配的复杂性对于掌握我们的能源系统如何运作以及如何应对不断增长的需求和技术进步是必不可少的。首先，让我们拆解一下传输的含义。这个阶段涉及将电力以高电压从发电地点（如发电厂）长距离传输到变电站。传输的目的是在运输过程中最小化能源损失，这通过使用高电压来实现。当电力通过导线传输时，它会遇到阻力，如果电压不足，就会导致显著的损失。因此，传输线路被设计为以这些高电压输送电力，从而允许在广阔的距离内高效移动。一旦电力到达变电站，下一个阶段——分配——就开始了。这个过程涉及将高电压降低到适合家庭和企业使用的水平。分配网络由较低电压的线路组成，直接将电力输送给消费者。这个阶段至关重要，因为它确保电力在到达最终目的地时处于安全和可用的电压水平。分配系统还包括变压器，这在调整电压水平方面起着关键作用。此外，传输和分配系统的可靠性至关重要。这些网络中的任何中断都可能导致停电或降压，影响数百万人。因此，公用事业公司在维护和升级这些基础设施上投入大量资金。这包括实施智能电网技术，这增强了电力流动的监控和管理，使系统更加韧性和高效。近年来，可再生能源源的整合进入电网给传输和分配带来了新的挑战和机遇。随着我们向更清洁的能源解决方案（如太阳能和风能）转型，现有的传输和分配网络必须适应这些可变和去中心化的能源来源。这一过渡需要创新的方法，以有效管理能源的供需，确保电网在整合更高比例的可再生能源时保持稳定。总之，传输和分配的概念对于我们理解电力从发电点到最终用户的传递方式至关重要。随着我们的能源格局随着技术进步和向可持续性转变而发展，掌握传输和分配的重要性对于未来的能源规划和政策制定至关重要。该领域的持续发展将塑造我们消费能源的方式，使其在未来几代人中更加可靠、高效和环保。