grid control

简明释义

棚极控制

英英释义

例句

1.Effective grid control 电网控制 can prevent blackouts and ensure a reliable power supply.

有效的电网控制 grid control 可以防止停电，并确保可靠的电力供应。

2.To ensure stability, the engineers implemented a grid control 电网控制 system that adjusts supply based on real-time demand.

为了确保稳定，工程师们实施了一种电网控制 grid control 系统，根据实时需求调整供应。

3.The utility company upgraded its grid control 电网控制 infrastructure to better handle peak loads.

该公用事业公司升级了其电网控制 grid control 基础设施，以更好地应对高峰负荷。

4.Our team is researching new algorithms to improve grid control 电网控制 efficiency in smart grids.

我们的团队正在研究新算法，以提高智能电网中电网控制 grid control 的效率。

5.The new software provides enhanced grid control 电网控制 features for managing energy distribution.

这款新软件提供了增强的电网控制 grid control 功能，用于管理能源分配。

作文

In today's world, the concept of energy management has become increasingly important as we strive for sustainability and efficiency. One of the key components of this management is grid control, which plays a vital role in ensuring that electricity supply meets demand effectively. Grid control refers to the methods and technologies used to monitor and manage the flow of electricity across a power grid. This includes balancing the supply and demand, integrating renewable energy sources, and maintaining the stability of the electrical system.The significance of grid control cannot be overstated, especially in an era where renewable energy sources such as solar and wind are becoming more prevalent. These energy sources are often intermittent, meaning that their output can vary significantly depending on weather conditions. Grid control systems must be able to respond to these fluctuations quickly and efficiently to prevent outages and maintain a steady supply of electricity.Moreover, advanced grid control technologies enable better communication between power plants, substations, and consumers. Smart grids utilize sensors and digital technology to provide real-time data on energy consumption and production. This information allows operators to make informed decisions about how to distribute electricity effectively. For instance, during peak demand times, operators can identify which power plants should ramp up production or which areas may need to reduce usage to avoid overloads.Another crucial aspect of grid control is the integration of energy storage systems. These systems, such as batteries, can store excess energy produced during low-demand periods and release it during high-demand times. This capability helps to smooth out the fluctuations associated with renewable energy sources and enhances the overall reliability of the power grid.In addition to managing supply and demand, grid control also involves ensuring the security of the electrical system. Cybersecurity has become a significant concern as power grids become more interconnected and reliant on digital technology. Effective grid control includes implementing measures to protect against cyber threats that could disrupt service or compromise sensitive data.Furthermore, governments and regulatory bodies are increasingly recognizing the importance of grid control in achieving energy independence and reducing greenhouse gas emissions. Policies that promote the development of smart grids and renewable energy technologies are essential for creating a sustainable energy future. By investing in grid control infrastructure, countries can enhance their energy resilience and contribute to global efforts to combat climate change.In conclusion, grid control is a critical element in the modern energy landscape. It encompasses a range of technologies and strategies aimed at optimizing the generation, distribution, and consumption of electricity. As we continue to transition towards a more sustainable energy system, the role of grid control will only grow in importance. Embracing innovative solutions and investing in robust infrastructure will be key to ensuring a reliable and efficient power supply for future generations.

在当今世界，能源管理的概念变得越来越重要，因为我们努力实现可持续性和效率。其中一个关键组成部分是电网控制，它在确保电力供应有效满足需求方面发挥着至关重要的作用。电网控制是指用于监测和管理电力在电网中流动的方法和技术。这包括平衡供需、整合可再生能源和维持电力系统的稳定性。电网控制的重要性不容小觑，尤其是在可再生能源如太阳能和风能日益普及的时代。这些能源通常是间歇性的，这意味着它们的输出可能会根据天气条件显著变化。电网控制系统必须能够快速高效地响应这些波动，以防止停电并保持电力供应的稳定。此外，先进的电网控制技术使发电厂、变电站和消费者之间的沟通更加顺畅。智能电网利用传感器和数字技术提供有关能源消耗和生产的实时数据。这些信息使运营商能够就如何有效分配电力做出明智的决策。例如，在高峰需求时期，运营商可以识别出哪些发电厂应增加生产，或哪些区域可能需要减少使用以避免过载。电网控制的另一个关键方面是能源储存系统的整合。这些系统，如电池，可以在低需求期间储存多余的能量，并在高需求期间释放。这种能力有助于平滑与可再生能源相关的波动，并增强电网的整体可靠性。除了管理供需外，电网控制还涉及确保电力系统的安全性。随着电网变得更加互联并依赖于数字技术，网络安全已成为一个重要问题。有效的电网控制包括实施措施以保护免受可能中断服务或危害敏感数据的网络威胁。此外，各国政府和监管机构越来越认识到电网控制在实现能源独立和减少温室气体排放方面的重要性。促进智能电网和可再生能源技术发展的政策对于创造可持续的能源未来至关重要。通过投资于电网控制基础设施，各国可以增强其能源韧性，并为全球抗击气候变化的努力做出贡献。总之，电网控制是现代能源格局中的关键要素。它涵盖了一系列旨在优化电力的生成、分配和消费的技术和策略。随着我们继续向更可持续的能源系统过渡，电网控制的作用将只会越来越重要。拥抱创新解决方案并投资于强大的基础设施将是确保未来几代人可靠和高效电力供应的关键。