electric system
简明释义
电力系统电力设备
英英释义
例句
1.The electric system in my house frequently trips the circuit breaker.
我家里的电力系统经常跳闸。
2.The new building is equipped with a state-of-the-art electric system.
这座新建筑配备了最先进的电力系统。
3.The city is investing in renewable energy sources for its electric system.
该市正在投资可再生能源,以改善其电力系统。
4.An efficient electric system can significantly reduce energy costs.
高效的电力系统可以显著降低能源成本。
5.We need to upgrade the electric system to handle the increased load.
我们需要升级电力系统以应对增加的负载。
作文
The concept of an electric system (电力系统) is integral to our modern society. It encompasses a vast network of components that generate, transmit, and distribute electricity to homes, industries, and businesses. Understanding the intricacies of an electric system (电力系统) can help us appreciate the complexity involved in powering our daily lives. At its core, an electric system (电力系统) consists of several key elements: power generation, transmission, and distribution. Power generation can occur through various means, including fossil fuels, nuclear energy, and renewable sources such as solar and wind. Each method has its benefits and drawbacks, influencing not only the efficiency of the electric system (电力系统) but also its environmental impact. Once electricity is generated, it must be transported over long distances to reach consumers. This is where the transmission phase of an electric system (电力系统) comes into play. High-voltage transmission lines carry electricity across vast distances, minimizing energy loss. The infrastructure required for this phase is extensive, involving substations and transformers that help manage voltage levels. Finally, the distribution phase of an electric system (电力系统) delivers electricity to end-users. This involves stepping down the voltage from transmission levels to a usable form for homes and businesses. The efficiency of this stage is crucial, as any loss of power can lead to increased costs and reduced reliability. In recent years, the emergence of smart grid technology has revolutionized traditional electric systems (电力系统). Smart grids utilize digital communication tools to monitor and manage the flow of electricity more effectively. This innovation allows for better integration of renewable energy sources, improving the sustainability of our electric systems (电力系统). Additionally, smart grids enhance the reliability of electricity supply, reducing the frequency and duration of outages. Moreover, understanding the role of an electric system (电力系统) in economic development cannot be overstated. A reliable electricity supply is essential for industrial growth, technological advancement, and overall quality of life. Countries with well-developed electric systems (电力系统) tend to have stronger economies, as businesses can operate efficiently and households can access modern conveniences. However, challenges remain in maintaining and upgrading existing electric systems (电力系统). Aging infrastructure, increasing demand for electricity, and the need for sustainable practices put pressure on utilities and policymakers. Investments in new technologies, such as energy storage solutions and decentralized energy production, are essential for the future resilience of our electric systems (电力系统). In conclusion, an electric system (电力系统) is a complex yet vital part of our daily lives. From generation to distribution, each component plays a crucial role in ensuring that electricity is available when and where it is needed. As we move towards a more sustainable future, understanding and improving our electric systems (电力系统) will be key to meeting the energy demands of tomorrow.
电力系统的概念对我们现代社会至关重要。它涵盖了一张庞大的网络,负责发电、输电和配电,将电力送到家庭、工业和企业。理解电力系统的复杂性,可以帮助我们欣赏为日常生活提供动力所涉及的复杂性。电力系统的核心由几个关键要素组成:发电、输电和配电。发电可以通过多种方式进行,包括化石燃料、核能以及可再生能源,如太阳能和风能。每种方法都有其优缺点,影响着电力系统的效率以及对环境的影响。一旦电力被生成,就必须在长距离内运输以达到消费者。这就是电力系统输电阶段的作用。高压输电线将电力通过广阔的距离传输,尽量减少能量损失。这个阶段所需的基础设施是广泛的,包括变电站和变压器,这些设备帮助管理电压水平。最后,电力系统的配电阶段将电力送到最终用户。这涉及将电压从输电水平降低到家庭和企业可用的形式。这个阶段的效率至关重要,因为任何电力损失都可能导致成本增加和可靠性降低。近年来,智能电网技术的出现彻底改变了传统的电力系统。智能电网利用数字通信工具更有效地监测和管理电力流动。这项创新允许更好地整合可再生能源,提高电力系统的可持续性。此外,智能电网增强了电力供应的可靠性,减少了停电的频率和持续时间。此外,理解电力系统在经济发展中的作用也不能被低估。可靠的电力供应对于工业增长、技术进步和整体生活质量至关重要。拥有发达电力系统的国家往往经济更强,因为企业能够高效运作,家庭能够享受现代便利。然而,在维护和升级现有电力系统方面仍然面临挑战。老化的基础设施、不断增长的电力需求以及可持续实践的需要给公用事业公司和政策制定者带来了压力。对新技术的投资,如能源存储解决方案和分散式能源生产,对我们未来电力系统的韧性至关重要。总之,电力系统是我们日常生活中一个复杂而重要的部分。从发电到配电,每个组件在确保电力在需要时可用方面都发挥着至关重要的作用。随着我们朝着更可持续的未来迈进,理解和改善我们的电力系统将是满足明天能源需求的关键。
