grid variation

简明释义

网格偏差

英英释义

例句

1.Understanding grid variation is crucial for improving the reliability of power supply.

理解电网变化对于提高电力供应的可靠性至关重要。

2.The report highlighted the grid variation that occurs during peak demand hours.

报告强调了高峰需求时段发生的电网变化。

3.The engineer studied the grid variation to optimize the energy distribution system.

工程师研究了电网变化以优化能源分配系统。

4.The software can analyze grid variation and suggest improvements.

该软件可以分析电网变化并提出改进建议。

5.To mitigate risks, we need to monitor grid variation regularly.

为了降低风险，我们需要定期监测电网变化。

作文

In today's rapidly evolving world, the concept of energy management has become increasingly important. One of the key aspects of this management is understanding the fluctuations in power systems, often referred to as grid variation. This term essentially denotes the changes in voltage, frequency, and power flow within an electrical grid. These variations can occur due to numerous factors, including changes in demand, the integration of renewable energy sources, and the operational strategies of utilities. Understanding grid variation is crucial for maintaining the stability and reliability of the power supply.The significance of grid variation cannot be overstated, particularly with the growing reliance on renewable energy sources such as solar and wind. Unlike traditional energy sources, which can provide a steady output, renewables are inherently variable. For instance, solar energy production is dependent on sunlight, which fluctuates throughout the day and is affected by weather conditions. Similarly, wind energy generation varies with wind speed. As more renewable energy sources are integrated into the grid, the challenges associated with grid variation increase.To effectively manage grid variation, utilities must employ advanced technologies and strategies. One approach is the implementation of smart grid technology, which utilizes digital communication tools to monitor and manage the flow of electricity. Smart grids allow for real-time data collection, enabling utilities to respond quickly to changes in demand or supply. This technology also facilitates demand response programs, where consumers can adjust their energy usage during peak times, thereby helping to stabilize the grid.Another critical aspect of managing grid variation is energy storage. Batteries and other storage systems can store excess energy generated during low-demand periods and release it during high-demand times. This capability not only helps to smooth out fluctuations in energy supply but also enhances the overall resilience of the power system. Moreover, advancements in battery technology are making energy storage more cost-effective, further supporting the integration of renewables into the grid.Furthermore, understanding grid variation is essential for grid operators to ensure that the supply of electricity meets the demand at all times. They must constantly monitor the grid and make real-time adjustments to maintain balance. Failure to do so can result in blackouts or damage to infrastructure. Therefore, training personnel to understand and manage grid variation is vital for the future of energy management.In conclusion, as we transition towards a more sustainable energy future, grasping the concept of grid variation becomes increasingly critical. It encompasses the fluctuations in power systems that arise from various factors, particularly the integration of renewable energy sources. By leveraging smart grid technology, energy storage solutions, and effective training for grid operators, we can better manage these variations and ensure a reliable power supply. The journey towards a resilient and sustainable energy grid is complex, but understanding grid variation is a fundamental step in achieving this goal.

在当今快速发展的世界中，能源管理的概念变得越来越重要。这个管理的一个关键方面是理解电力系统中的波动，通常称为电网变化。这个术语本质上表示电网内电压、频率和功率流动的变化。这些变化可能由于许多因素而发生，包括需求的变化、可再生能源的整合以及公用事业的运营策略。理解电网变化对于维持电力供应的稳定性和可靠性至关重要。电网变化的重要性不容小觑，特别是在对可再生能源如太阳能和风能的日益依赖下。与传统能源源相比，后者可以提供稳定的输出，可再生能源本质上是可变的。例如，太阳能发电取决于阳光，这在一天内波动并受到天气条件的影响。同样，风能的产生也随着风速而变化。随着更多可再生能源源整合到电网中，与电网变化相关的挑战也在增加。为了有效管理电网变化，公用事业公司必须采用先进的技术和策略。一种方法是实施智能电网技术，该技术利用数字通信工具来监控和管理电力流动。智能电网允许实时数据收集，使公用事业能够迅速响应需求或供应的变化。这项技术还促进了需求响应程序，在高峰时段，消费者可以调整其能源使用，从而有助于稳定电网。管理电网变化的另一个关键方面是能源存储。在低需求时期，电池和其他储能系统可以存储多余的能量，并在高需求时期释放出来。这种能力不仅有助于平滑能源供应的波动，还增强了电力系统的整体韧性。此外，电池技术的进步使能源存储的成本更加经济，从而进一步支持可再生能源的整合。此外，理解电网变化对电网操作员确保电力供应始终满足需求至关重要。他们必须不断监控电网，并实时进行调整以保持平衡。如果未能做到这一点，可能会导致停电或基础设施损坏。因此，培训人员理解和管理电网变化对未来的能源管理至关重要。总之，随着我们向更可持续的能源未来过渡，掌握电网变化的概念变得越来越关键。它涵盖了由各种因素引起的电力系统的波动，特别是可再生能源的整合。通过利用智能电网技术、能源存储解决方案和对电网操作员的有效培训，我们可以更好地管理这些变化，确保可靠的电力供应。通往一个韧性和可持续的能源电网的旅程是复杂的，但理解电网变化是实现这一目标的基本步骤。