accumulator grid
简明释义
蓄电池栅板;
英英释义
An accumulator grid is a structured arrangement used to store and manage energy or data accumulators, facilitating efficient retrieval and organization. | 累加器网格是一种用于存储和管理能量或数据累加器的结构化安排,便于高效检索和组织。 |
例句
1.We need to optimize the accumulator grid to improve overall system performance.
我们需要优化蓄能网格以提高整体系统性能。
2.In renewable energy systems, an accumulator grid is essential for balancing supply and demand.
在可再生能源系统中,蓄能网格对于平衡供需至关重要。
3.The engineer explained how the accumulator grid can store excess energy for later use.
工程师解释了如何利用蓄能网格存储多余的能量以备后用。
4.The accumulator grid was designed to handle peak loads during high demand periods.
蓄能网格的设计旨在应对高需求时期的峰值负荷。
5.The accumulator grid allows for efficient energy distribution across the network.
蓄能网格允许在网络中高效分配能量。
作文
In the realm of modern technology, particularly in the field of energy storage and management, the term accumulator grid refers to a sophisticated network designed to store and distribute energy efficiently. An accumulator grid serves as a vital component in renewable energy systems, where the generation of power can be intermittent due to the fluctuating nature of sources like solar and wind energy. The ability to store excess energy generated during peak production times and release it when demand is high is crucial for maintaining a stable energy supply.The concept of an accumulator grid integrates various technologies, including batteries, supercapacitors, and other forms of energy storage systems. These components work together to create a robust infrastructure that can respond dynamically to changes in energy demand and supply. For instance, during sunny days, a solar power system may generate more electricity than is needed. An accumulator grid captures this surplus energy, storing it for later use when sunlight is not available, thus ensuring a continuous power supply.Furthermore, the accumulator grid plays a significant role in enhancing the resilience of the electrical grid. By providing a buffer against fluctuations in energy production and consumption, it helps to prevent blackouts and ensures that critical services remain operational during emergencies. This capability is increasingly important as more regions transition to renewable energy sources, which can be less predictable than traditional fossil fuels.The implementation of an accumulator grid also supports the integration of electric vehicles (EVs) into the energy ecosystem. As EV adoption increases, the demand for charging stations grows, often coinciding with peak energy usage times. An accumulator grid can manage this demand by storing energy during off-peak hours and distributing it efficiently to charging stations as needed. This not only helps to balance the load on the electrical grid but also promotes the use of clean energy for transportation.Moreover, the economic implications of accumulator grids are substantial. By optimizing energy storage and distribution, they can reduce reliance on expensive peak power plants, lower energy costs for consumers, and contribute to a more sustainable energy future. As governments and private enterprises invest in smart grid technologies, the role of accumulator grids will become increasingly prominent in achieving energy efficiency and sustainability goals.In conclusion, the accumulator grid is a pivotal innovation in the landscape of energy management. Its ability to store and distribute energy effectively not only enhances the reliability of power supplies but also supports the transition to renewable energy sources. As we move towards a more sustainable future, understanding and investing in accumulator grids will be essential for addressing the challenges of energy production and consumption. The continued evolution of this technology holds great promise for improving energy resilience, reducing costs, and fostering a cleaner, greener planet.
在现代科技领域,特别是在能源存储和管理方面,术语accumulator grid指的是一个复杂的网络,旨在有效地存储和分配能源。accumulator grid作为可再生能源系统中的重要组成部分,其功能是存储在高峰生产期间产生的多余能源,并在需求高峰时释放这些能源,从而确保稳定的能源供应。accumulator grid的概念集成了多种技术,包括电池、超级电容器和其他形式的能源存储系统。这些组件共同工作,创建一个强大的基础设施,能够动态响应能源需求和供应的变化。例如,在阳光明媚的日子里,太阳能发电系统可能会产生超过所需的电力。accumulator grid捕捉这部分多余的能源,将其存储以备后用,从而确保在没有阳光时也能持续供电。此外,accumulator grid在增强电网韧性方面发挥着重要作用。通过提供对能源生产和消费波动的缓冲,它有助于防止停电,并确保在紧急情况下关键服务保持运行。随着越来越多的地区转向可再生能源,这一能力变得愈加重要,因为可再生能源的生产往往不如传统化石燃料那样可预测。accumulator grid的实施还支持电动车(EV)在能源生态系统中的集成。随着电动车的普及,对充电站的需求不断增长,通常与高峰能源使用时间重叠。accumulator grid可以通过在非高峰时段存储能源并根据需要有效分配到充电站来管理这种需求。这不仅有助于平衡电网负载,还促进了清洁能源在交通运输中的使用。此外,accumulator grid的经济影响也是相当可观的。通过优化能源存储和分配,它们可以减少对昂贵的高峰电厂的依赖,降低消费者的能源成本,并为更可持续的能源未来做出贡献。随着各国政府和私营企业对智能电网技术的投资,accumulator grids在实现能源效率和可持续性目标方面的角色将变得越来越突出。总之,accumulator grid是能源管理领域的一项关键创新。它有效存储和分配能源的能力不仅增强了电力供应的可靠性,而且支持了向可再生能源源的转型。随着我们朝着更可持续的未来迈进,理解和投资于accumulator grids对于应对能源生产和消费的挑战至关重要。这项技术的持续发展为改善能源韧性、降低成本和促进更清洁、更绿色的星球带来了巨大希望。
相关单词
