automatic control on electrical power system

简明释义

电力系统自动控制

英英释义

例句

1.Engineers are developing new algorithms for automatic control on electrical power system to enhance efficiency.

工程师们正在开发新的算法用于电力系统的自动控制以提高效率。

2.With automatic control on electrical power system, we can reduce the risk of blackouts during peak demand.

通过电力系统的自动控制，我们可以降低高峰需求期间停电的风险。

3.The automatic control on electrical power system allows for real-time monitoring and adjustments.

电力系统的自动控制允许实时监控和调整。

4.Utilities are investing in automatic control on electrical power system technology to better manage renewable energy sources.

公用事业公司正在投资于电力系统的自动控制技术，以更好地管理可再生能源。

5.The implementation of automatic control on electrical power system has significantly improved grid stability.

实施电力系统的自动控制显著提高了电网的稳定性。

作文

The concept of automatic control on electrical power system has become increasingly important in modern engineering. This technology refers to the use of automated systems to manage and regulate the distribution and consumption of electrical power. With the rapid growth of renewable energy sources and the increasing complexity of electrical grids, the need for effective automatic control on electrical power system is more critical than ever. One of the primary benefits of automatic control on electrical power system is its ability to enhance the reliability and efficiency of power supply. By utilizing sensors and advanced algorithms, these systems can monitor real-time data about power generation and consumption. For instance, during peak demand periods, the automatic control on electrical power system can automatically adjust the output from various energy sources to ensure that the supply meets the demand without overloading the grid. This not only prevents blackouts but also minimizes energy waste.Moreover, the integration of renewable energy sources such as solar and wind into the electrical grid poses unique challenges. The output from these sources can be unpredictable and variable. However, with an effective automatic control on electrical power system, operators can better manage this variability. The system can predict fluctuations in energy production and adjust the distribution accordingly, ensuring a stable and continuous power supply. This adaptability is crucial for transitioning towards greener energy solutions.In addition to enhancing reliability, automatic control on electrical power system can significantly reduce operational costs. Traditional methods of power management often require manual intervention, which can be time-consuming and prone to human error. By automating these processes, utilities can streamline their operations, reduce labor costs, and improve response times to any issues that may arise. Furthermore, predictive maintenance can be implemented through automated systems, allowing for proactive measures that prevent costly outages and repairs.Another significant advantage of automatic control on electrical power system is its contribution to sustainability. By optimizing energy usage and integrating renewable resources, these systems help reduce greenhouse gas emissions. As countries strive to meet their climate goals, the implementation of automatic control on electrical power system becomes a vital component of their energy strategies. The ability to efficiently manage energy resources aligns with global efforts to combat climate change and promote environmental stewardship.In conclusion, the role of automatic control on electrical power system in today’s energy landscape cannot be overstated. It enhances the reliability, efficiency, and sustainability of electrical power systems. As we move forward, investing in and developing these automated technologies will be essential for creating a resilient and environmentally friendly energy future. The transition to a more automated approach in power management not only addresses current challenges but also paves the way for innovative solutions in the energy sector. Therefore, understanding and implementing automatic control on electrical power system is crucial for engineers, policymakers, and society as a whole, as we work towards a more sustainable and efficient energy grid.

“电力系统的自动控制”这一概念在现代工程中变得越来越重要。这项技术指的是使用自动化系统来管理和调节电力的分配和消费。随着可再生能源的快速增长和电网的日益复杂，对有效的“电力系统的自动控制”的需求比以往任何时候都更为关键。“电力系统的自动控制”的主要好处之一是能够提高电力供应的可靠性和效率。通过利用传感器和先进的算法，这些系统可以实时监测电力生成和消费的数据。例如，在高峰需求期间，“电力系统的自动控制”可以自动调整各种能源的输出，以确保供应满足需求，而不会导致电网过载。这不仅可以防止停电，还能最大限度地减少能源浪费。此外，将可再生能源如太阳能和风能整合到电网中会带来独特的挑战。这些能源的输出可能是不可预测和变化的。然而，通过有效的“电力系统的自动控制”，运营商可以更好地管理这种变动。该系统可以预测能源生产的波动，并相应地调整分配，从而确保稳定和持续的电力供应。这种适应能力对于向更绿色的能源解决方案转型至关重要。除了提高可靠性外，“电力系统的自动控制”还可以显著降低运营成本。传统的电力管理方法往往需要人工干预，这可能既耗时又容易出错。通过自动化这些过程，公用事业公司可以简化操作，降低劳动力成本，并改善对任何可能出现的问题的响应时间。此外，可以通过自动化系统实施预测性维护，从而采取主动措施，防止昂贵的停机和维修。“电力系统的自动控制”的另一个显著优势是其对可持续性的贡献。通过优化能源使用和整合可再生资源，这些系统有助于减少温室气体排放。随着各国努力实现气候目标，实施“电力系统的自动控制”成为其能源战略的关键组成部分。有效管理能源资源的能力与全球应对气候变化和促进环境保护的努力相一致。总之，今天能源格局中“电力系统的自动控制”的作用不容小觑。它提高了电力系统的可靠性、效率和可持续性。随着我们向前发展，投资和开发这些自动化技术对于创建一个具有韧性和环保的能源未来至关重要。在电力管理中转向更自动化的方法不仅解决了当前的挑战，还为能源部门的创新解决方案铺平了道路。因此，理解和实施“电力系统的自动控制”对工程师、政策制定者以及整个社会都是至关重要的，因为我们共同努力实现更可持续和高效的电网。