AC power system
简明释义
交流电力系统
英英释义
例句
1.A reliable AC power system is crucial for industrial operations.
可靠的交流电力系统对工业运营至关重要。
2.In many homes, the AC power system provides the electricity needed for appliances.
在许多家庭中,交流电力系统为电器提供所需的电力。
3.The engineer tested the efficiency of the AC power system in the new building.
工程师测试了新建筑中交流电力系统的效率。
4.The maintenance team performed routine checks on the AC power system to ensure safety.
维护团队对交流电力系统进行了例行检查以确保安全。
5.The AC power system can easily be integrated with renewable energy sources.
交流电力系统可以轻松与可再生能源源整合。
作文
The modern world relies heavily on electricity, and one of the most critical components of our electrical infrastructure is the AC power system. An AC power system (交流电力系统) is a network that generates, transmits, and distributes alternating current (AC) electricity to homes, businesses, and industries. This system is essential for powering our daily lives, as it allows for the efficient transfer of electrical energy over long distances. One of the primary advantages of an AC power system is its ability to transform voltage levels through transformers. This capability enables electricity to be transmitted at high voltages, which reduces energy loss during transmission. When the electricity reaches its destination, it can be stepped down to lower voltages suitable for residential or commercial use. This efficiency in voltage transformation is one reason why the AC power system has become the standard for electrical power distribution worldwide.Additionally, an AC power system is less complex than its direct current (DC) counterpart. The generation of AC power is generally simpler and more cost-effective, making it a preferred choice for power plants. Furthermore, many electrical devices, such as motors and appliances, are designed to operate on AC electricity, further solidifying the AC power system as the backbone of electrical systems.The significance of the AC power system extends beyond just efficiency and convenience; it also plays a vital role in the integration of renewable energy sources. With the growing demand for sustainable energy solutions, many wind and solar power installations generate AC electricity. The AC power system allows for the seamless incorporation of these renewable sources into the existing grid, thus promoting a cleaner and more sustainable energy future.However, like any system, the AC power system faces challenges. One major concern is the aging infrastructure in many parts of the world. Many electrical grids were built decades ago and require upgrades to handle increasing demand and integrate modern technologies. Additionally, the rise of distributed energy resources, such as rooftop solar panels, presents new challenges for managing the flow of electricity within the AC power system. To address these challenges, innovations such as smart grids are being developed. A smart grid utilizes advanced technology to monitor and manage the distribution of electricity more effectively. By incorporating real-time data and automation, smart grids can optimize the performance of the AC power system, enhancing reliability and reducing outages.In conclusion, the AC power system is an integral part of our electrical infrastructure, providing the foundation for our modern society. Its ability to efficiently transmit electricity, support various devices, and integrate renewable energy sources makes it indispensable. As we move towards a more sustainable future, addressing the challenges faced by the AC power system will be crucial in ensuring reliable and efficient electricity for generations to come.
现代社会在很大程度上依赖电力,而我们电力基础设施中最关键的组成部分之一就是交流电力系统。交流电力系统(AC power system)是一个网络,负责将交流电(AC)电力生成、传输和分配到家庭、企业和工业。这一系统对我们日常生活的供电至关重要,因为它能够有效地将电能远距离传输。交流电力系统的主要优势之一是其通过变压器改变电压水平的能力。这一特性使得电力可以以高电压进行传输,从而减少在传输过程中的能量损失。当电力到达目的地时,可以将其降至适合住宅或商业使用的低电压。这种电压转换的效率是交流电力系统成为全球电力分配标准的原因之一。此外,交流电力系统比其直流电(DC)对手更为简单。交流电的生成通常更简单且成本更低,使其成为发电厂的首选。此外,许多电气设备,如电动机和家用电器,都是设计用于交流电,这进一步巩固了交流电力系统作为电力系统支柱的地位。交流电力系统的重要性不仅体现在效率和便利性上;它在可再生能源的整合中也发挥着至关重要的作用。随着对可持续能源解决方案的需求不断增长,许多风能和太阳能发电设施产生的是交流电。交流电力系统允许这些可再生能源无缝融入现有电网,从而促进更清洁、更可持续的能源未来。然而,像任何系统一样,交流电力系统也面临挑战。一个主要的担忧是世界许多地方的基础设施老化。许多电网建于数十年前,需要升级以应对不断增长的需求并整合现代技术。此外,分布式能源资源(如屋顶太阳能电池板)的兴起也给管理交流电力系统内的电力流动带来了新的挑战。为了应对这些挑战,正在开发智能电网等创新技术。智能电网利用先进技术来更有效地监控和管理电力分配。通过结合实时数据和自动化,智能电网可以优化交流电力系统的性能,提高可靠性并减少停电。总之,交流电力系统是我们电力基础设施的一个重要组成部分,为我们的现代社会提供了基础。它高效的电力传输能力、支持各种设备的能力以及整合可再生能源的能力使其不可或缺。随着我们朝着更可持续的未来迈进,解决交流电力系统所面临的挑战对于确保未来几代人获得可靠和高效的电力至关重要。
