electric power system

简明释义

电力系统电力设备

英英释义

例句

1.Regular maintenance of the electric power system 电力系统 helps prevent unexpected outages.

定期维护电力系统有助于防止意外停电。

2.Renewable energy sources are increasingly being integrated into the electric power system 电力系统 to promote sustainability.

可再生能源越来越多地被整合进电力系统中，以促进可持续发展。

3.Engineers are working on improving the efficiency of the electric power system 电力系统 to reduce energy losses.

工程师们正在努力提高电力系统的效率，以减少能源损失。

4.The reliability of the electric power system 电力系统 is crucial for maintaining daily operations in urban areas.

城市地区日常运营的可靠性取决于电力系统。

5.A smart grid is an advanced version of the traditional electric power system 电力系统 that uses digital technology.

智能电网是传统电力系统的先进版本，利用数字技术。

作文

The modern world is heavily reliant on various forms of energy, and one of the most critical components of our infrastructure is the electric power system. An electric power system refers to the network that generates, transmits, and distributes electrical energy to consumers. This complex system is essential for powering homes, businesses, and industries, making it a fundamental aspect of contemporary life.At its core, the electric power system consists of three main components: generation, transmission, and distribution. Generation involves the production of electricity from various sources, including fossil fuels, nuclear energy, and renewable resources such as wind, solar, and hydroelectric power. Each of these sources has its advantages and challenges, contributing to the overall diversity and sustainability of the electric power system.Once electricity is generated, it must be transmitted over long distances to reach consumers. This is where the transmission component comes into play. High-voltage transmission lines carry electricity from power plants to substations, which are strategically located to ensure efficient distribution. The design and maintenance of these transmission networks are crucial for minimizing energy losses and ensuring reliability in supply.Finally, the distribution phase delivers electricity to end-users through a network of lower-voltage lines. This part of the electric power system connects homes, schools, hospitals, and businesses to the grid, allowing them to access the energy needed for daily operations. The effectiveness of this distribution network directly impacts the quality of service that consumers receive, highlighting the importance of investing in infrastructure improvements.One of the significant challenges facing the electric power system today is the integration of renewable energy sources. As society becomes more conscious of climate change and the need for sustainable practices, transitioning from traditional energy sources to greener alternatives has become a priority. However, incorporating renewables into the existing electric power system requires careful planning and technological advancements. Energy storage solutions, smart grids, and demand response strategies are just a few examples of innovations being explored to enhance the flexibility and resilience of the system.Moreover, cybersecurity has emerged as a vital concern for the electric power system. As systems become more interconnected and reliant on digital technologies, the risk of cyberattacks increases. Protecting the integrity of the grid is paramount, as any disruption can lead to widespread outages and significant economic consequences. Therefore, ongoing investment in cybersecurity measures is essential to safeguard the electric power system from potential threats.In conclusion, the electric power system is a vital part of modern infrastructure that underpins almost every aspect of our daily lives. Understanding its components, challenges, and the ongoing efforts to improve and secure it is crucial for anyone interested in energy policy, engineering, or environmental sustainability. As we move forward, embracing innovation and prioritizing sustainability will be key to ensuring that the electric power system continues to meet the needs of future generations.

现代社会在很大程度上依赖于各种形式的能源，而我们基础设施中最关键的组成部分之一就是电力系统。电力系统是指生成、传输和分配电能到消费者的网络。这个复杂的系统对为家庭、企业和工业供电至关重要，使其成为当代生活的基本方面。 在其核心，电力系统由三个主要组成部分构成：发电、输电和配电。发电涉及从各种来源生产电力，包括化石燃料、核能以及可再生资源，如风能、太阳能和水电。每种能源都有其优缺点，促进了电力系统整体多样性和可持续性。一旦发电完成，电力必须通过长途传输到达消费者。这时，输电组件就发挥了作用。高压输电线将电力从发电厂输送到变电站，这些变电站战略性地分布，以确保有效的分配。设计和维护这些输电网络对于最小化能源损失和确保供应可靠性至关重要。 最后，配电阶段通过一系列低压线路将电力交付给最终用户。电力系统的这一部分将家庭、学校、医院和企业连接到电网，使它们能够获取日常运营所需的能源。这一配电网络的有效性直接影响消费者所获得的服务质量，突显了投资基础设施改进的重要性。当今面临的一个重大挑战是可再生能源的整合。随着社会越来越意识到气候变化和可持续实践的必要性，从传统能源转向更绿色替代品已成为优先事项。然而，将可再生能源纳入现有的电力系统需要仔细的规划和技术进步。能源存储解决方案、智能电网和需求响应策略只是一些正在探索的创新示例，以增强系统的灵活性和韧性。此外，网络安全已成为电力系统的重要关注点。随着系统变得更加互联并依赖数字技术，网络攻击的风险也在增加。保护电网的完整性至关重要，因为任何干扰都可能导致广泛的停电和重大的经济后果。因此，对网络安全措施的持续投资对于保护电力系统免受潜在威胁至关重要。总之，电力系统是现代基础设施的重要组成部分，它支撑着我们日常生活的几乎每一个方面。理解其组成部分、挑战以及改善和保护它的持续努力，对于任何对能源政策、工程或环境可持续性感兴趣的人来说都是至关重要的。展望未来，拥抱创新和优先考虑可持续性将是确保电力系统继续满足未来几代人需求的关键。