unified calculation of power grids

简明释义

电网统一核算

英英释义

例句

1.A unified calculation of power grids 电网统一计算 is essential for integrating renewable energy sources effectively.

有效整合可再生能源源需要进行电网统一计算。

2.The engineers conducted a unified calculation of power grids 电网统一计算 to optimize the energy distribution across the region.

工程师们进行了电网统一计算以优化该地区的能源分配。

3.By implementing a unified calculation of power grids 电网统一计算, we can reduce transmission losses significantly.

通过实施电网统一计算，我们可以显著减少输电损失。

4.The software used for the unified calculation of power grids 电网统一计算 has improved accuracy in forecasting demand.

用于电网统一计算的软件在需求预测的准确性上有所提高。

5.The research team published a paper on the unified calculation of power grids 电网统一计算 methodologies used in smart grids.

研究小组发表了一篇关于智能电网中使用的电网统一计算方法的论文。

作文

The concept of unified calculation of power grids is essential in the modern energy landscape, where the demand for electricity is ever-increasing. As societies advance, so does the complexity of our power systems. The unified calculation of power grids refers to the integrated approach used to analyze and optimize the operations of electrical grids across various regions. This method ensures that all components of the power grid work together efficiently, reducing the risk of outages and improving overall stability.To understand the importance of unified calculation of power grids, we must first recognize the structure of a power grid. A power grid is a network that delivers electricity from producers to consumers. It consists of power plants, transmission lines, substations, and distribution systems. Each of these components plays a crucial role in ensuring that electricity is delivered reliably. However, as more renewable energy sources are integrated into the grid, such as solar and wind power, the challenges of managing these resources increase significantly.The unified calculation of power grids helps address these challenges by providing a comprehensive framework for analyzing the entire system. By utilizing advanced algorithms and computational tools, engineers can simulate various scenarios, predict potential issues, and devise strategies to mitigate risks. For instance, during peak demand periods, the unified calculation of power grids allows operators to determine which power plants should be activated or deactivated to maintain balance and prevent overloads.Moreover, the unified calculation of power grids is critical for integrating renewable energy sources. Unlike traditional fossil fuel power plants, renewable energy generation can be unpredictable due to factors like weather conditions. By employing a unified calculation approach, grid operators can forecast energy production from these sources and adjust the grid's operations accordingly. This adaptability is vital for maximizing the use of clean energy while ensuring that consumers have a stable power supply.In addition to enhancing operational efficiency, the unified calculation of power grids also plays a significant role in economic considerations. By optimizing energy distribution and reducing waste, utilities can lower operational costs, which can translate to savings for consumers. Furthermore, a well-functioning grid can attract investments in infrastructure, promoting further advancements in technology and sustainability.In conclusion, the unified calculation of power grids is a fundamental aspect of modern energy management. It encompasses the integration of various components within the power grid, allowing for improved reliability, efficiency, and sustainability. As we continue to face the challenges of climate change and energy demands, the importance of this unified approach will only grow. Embracing the principles of unified calculation of power grids will be crucial for building a resilient energy future that meets the needs of society while protecting our planet.

“电网统一计算”这一概念在现代能源格局中至关重要，随着对电力需求的不断增加，社会的发展使我们的电力系统变得愈加复杂。“电网统一计算”是指用于分析和优化各个区域电网运行的综合方法。这种方法确保电网的所有组件协同高效地工作，从而降低停电风险并提高整体稳定性。要理解“电网统一计算”的重要性，首先必须认识到电网的结构。电网是一个将电力从生产者传递给消费者的网络。它由发电厂、输电线路、变电站和配电系统组成。这些组件在确保电力可靠交付方面发挥着至关重要的作用。然而，随着越来越多的可再生能源（如太阳能和风能）被整合进电网，管理这些资源的挑战显著增加。“电网统一计算”通过提供一个全面的框架来分析整个系统，帮助解决这些挑战。通过利用先进的算法和计算工具，工程师可以模拟各种场景，预测潜在问题，并制定缓解风险的策略。例如，在高峰需求期间，“电网统一计算”使操作员能够确定哪些发电厂应该启动或停用，以保持平衡并防止过载。此外，“电网统一计算”在整合可再生能源方面也起着重要作用。与传统的化石燃料发电厂不同，可再生能源的发电因天气等因素而可能不稳定。通过采用统一计算的方法，电网运营商可以预测这些来源的能源生产，并相应调整电网的运行。这种适应能力对于最大限度地利用清洁能源，同时确保消费者获得稳定的电力供应至关重要。除了提高运营效率外，“电网统一计算”在经济考虑方面也扮演着重要角色。通过优化能源分配和减少浪费，公用事业公司可以降低运营成本，从而为消费者带来节省。此外，良好运作的电网可以吸引基础设施投资，促进技术和可持续性的进一步发展。总之，“电网统一计算”是现代能源管理的基本方面。它涵盖了电网内各个组件的整合，允许提高可靠性、效率和可持续性。随着我们继续面临气候变化和能源需求的挑战，这种统一方法的重要性只会增加。拥抱“电网统一计算”的原则对于建设一个能够满足社会需求并保护我们星球的韧性能源未来至关重要。