electrical interconnection

简明释义

电的互相联结

英英释义

例句

1.The electrical interconnection in the building ensures that all devices receive power.

建筑中的电气互连确保所有设备都能获得电力。

2.The design of the solar panel system requires careful planning of the electrical interconnection.

太阳能电池板系统的设计需要仔细规划电气互连。

3.The failure of the electrical interconnection can lead to power outages.

电气互连的故障可能导致停电。

4.Engineers tested the electrical interconnection between the two substations.

工程师测试了两个变电站之间的电气互连。

5.In smart grids, electrical interconnection plays a crucial role in energy distribution.

在智能电网中，电气互连在能源分配中起着至关重要的作用。

作文

In today's rapidly evolving technological landscape, the concept of electrical interconnection plays a crucial role in various sectors, including energy distribution, telecommunications, and transportation. Electrical interconnection refers to the linking of electrical systems or networks to facilitate the transfer of electricity between different entities. This process is vital for ensuring that power generated from renewable sources can be effectively utilized and distributed across vast distances. For instance, wind farms located in remote areas can supply energy to urban centers through an intricate web of electrical interconnection systems.The importance of electrical interconnection becomes even more evident when we consider the growing demand for sustainable energy solutions. As nations strive to reduce their carbon footprints, they increasingly rely on renewable energy sources like solar and wind power. These sources often generate electricity in locations far from where it is consumed, necessitating robust electrical interconnection networks. Without these connections, the full potential of renewable energy cannot be realized, leading to inefficiencies and wasted resources.Moreover, electrical interconnection enhances the reliability and resilience of power systems. By connecting different power grids, operators can share resources during peak demand periods or in case of outages. For example, if one region experiences a sudden surge in electricity demand, it can draw power from a neighboring grid through electrical interconnection, thus preventing blackouts and maintaining stability. This collaborative approach not only optimizes resource use but also fosters a sense of community among regions.In addition to energy distribution, electrical interconnection is also critical in the realm of telecommunications. The backbone of modern communication networks relies on interconnected systems that transmit data at lightning speed. Fiber optic cables, satellite links, and wireless technologies are all part of this intricate network. Each component must work seamlessly with others to ensure reliable connectivity. The efficiency of these communications is largely dependent on the effectiveness of their electrical interconnection. When these systems are well-integrated, users experience faster internet speeds and fewer disruptions, which is increasingly important in our digital age.Furthermore, electrical interconnection contributes to the development of smart cities. These urban environments utilize technology to enhance the quality of life for residents while promoting sustainability. Smart grids, which incorporate electrical interconnection, allow for real-time monitoring and management of energy consumption. This capability enables cities to optimize energy use, reduce waste, and lower costs. As cities continue to grow, the need for efficient electrical interconnection will only increase, making it a pivotal aspect of urban planning and development.In conclusion, the significance of electrical interconnection cannot be overstated. It serves as the foundation for a sustainable and efficient energy future, enhances the reliability of power systems, supports the telecommunications infrastructure, and paves the way for the development of smart cities. As we move forward, investing in and improving electrical interconnection will be essential for meeting the challenges of a rapidly changing world. By embracing this concept, we can ensure a more connected, resilient, and sustainable future for generations to come.

在当今快速发展的技术环境中，电气互连的概念在能源分配、电信和交通等各个领域发挥着至关重要的作用。电气互连是指将电气系统或网络连接起来，以便在不同实体之间转移电力。这一过程对于确保从可再生能源产生的电力能够有效利用并在广泛的距离内分配至关重要。例如，位于偏远地区的风电场可以通过复杂的电气互连系统向城市中心供应能源。考虑到对可持续能源解决方案日益增长的需求，电气互连的重要性变得更加明显。随着各国努力减少碳足迹，它们越来越依赖太阳能和风能等可再生能源。这些能源通常在离消费地点较远的地方发电，因此需要强大的电气互连网络。如果没有这些连接，可再生能源的全部潜力无法实现，导致效率低下和资源浪费。此外，电气互连增强了电力系统的可靠性和韧性。通过连接不同的电网，运营商可以在需求高峰期或停电时共享资源。例如，如果一个地区突然出现电力需求激增，它可以通过电气互连从邻近电网抽取电力，从而防止停电并保持稳定。这种协作方法不仅优化了资源使用，还促进了地区之间的社区感。除了能源分配，电气互连在电信领域也至关重要。现代通信网络的基础设施依赖于相互连接的系统，以闪电般的速度传输数据。光纤电缆、卫星链接和无线技术都是这个复杂网络的一部分。每个组件必须与其他组件无缝协作，以确保可靠的连接。这些通信的效率在很大程度上依赖于它们的电气互连的有效性。当这些系统良好集成时，用户体验到更快的互联网速度和更少的中断，这在我们的数字时代变得越来越重要。此外，电气互连有助于智能城市的发展。这些城市环境利用技术提升居民的生活质量，同时促进可持续发展。智能电网，结合了电气互连，允许实时监控和管理能源消耗。这种能力使城市能够优化能源使用、减少浪费和降低成本。随着城市的不断发展，对高效电气互连的需求只会增加，使其成为城市规划和发展的关键方面。总之，电气互连的重要性不容小觑。它为可持续和高效的能源未来奠定了基础，增强了电力系统的可靠性，支持了电信基础设施，并为智能城市的发展铺平了道路。随着我们向前发展，投资和改善电气互连将对应对快速变化的世界的挑战至关重要。通过接受这一概念，我们可以确保为子孙后代创造一个更加互联、韧性强和可持续的未来。