interconnection of power stations

简明释义

电站的互连

英英释义

例句

1.A robust interconnection of power stations can help stabilize the grid during peak demand.

强大的电站互联互通可以在高峰需求期间帮助稳定电网。

2.The interconnection of power stations is crucial for integrating renewable energy sources.

电站的互联互通对于整合可再生能源至关重要。

3.Engineers are working on the interconnection of power stations to reduce transmission losses.

工程师们正在研究电站的互联互通以减少输电损耗。

4.The interconnection of power stations allows for better distribution of electricity across regions.

电站的互联互通可以更好地分配各地区的电力。

5.The government is investing in the interconnection of power stations to enhance energy security.

政府正在投资于电站的互联互通以增强能源安全。

作文

The modern world relies heavily on electricity for almost every aspect of daily life. From powering our homes to running industries, the demand for electricity continues to grow. To meet this demand, an effective and efficient system of power generation and distribution is crucial. One of the key concepts that facilitates this is the interconnection of power stations, which refers to the network of electrical connections between various power generation facilities. This interconnected system allows for the sharing of resources, balancing of loads, and enhanced reliability of the power supply.The interconnection of power stations enables different power plants, whether they are coal, natural gas, hydroelectric, or renewable sources like wind and solar, to work together seamlessly. When one power station experiences a surge in demand, others in the network can compensate by providing additional power. This flexibility is essential, especially during peak usage times when the demand for electricity can spike dramatically.Moreover, the interconnection of power stations plays a significant role in enhancing the stability of the electrical grid. In the event of a failure at one power station, the interconnected network can reroute electricity from other stations to maintain a steady supply. This redundancy is vital for preventing blackouts and ensuring that consumers have continuous access to electricity.Additionally, the interconnection of power stations supports the integration of renewable energy sources into the grid. As more countries shift towards sustainable energy solutions, the ability to connect various power generation facilities becomes increasingly important. For example, solar farms located in sunny regions can be linked with wind farms in areas with high wind potential. This means that even when one source is not producing enough electricity, another can fill the gap, leading to a more reliable and sustainable energy supply.Economically, the interconnection of power stations can lead to lower electricity costs for consumers. By allowing power to flow freely between regions, it reduces the need for each area to maintain its own base load generation capacity. Instead, surplus energy can be sold and distributed where it is most needed, optimizing the overall efficiency of the energy market. This not only benefits consumers through lower rates but also encourages investment in diverse energy sources.In conclusion, the interconnection of power stations is a fundamental aspect of modern energy systems that enhances reliability, supports sustainability, and promotes economic efficiency. As we move towards a future that prioritizes renewable energy and smart grids, understanding and improving these interconnections will be crucial in meeting the growing energy demands of our society. By fostering collaboration between different power generation methods, we can create a resilient and adaptive energy infrastructure that benefits everyone.

现代社会在生活的几乎每个方面都严重依赖电力。从为我们的家庭供电到运营工业，电力的需求持续增长。为了满足这种需求，有效和高效的发电和分配系统至关重要。其中一个关键概念是电站之间的互联互通，它指的是各种发电设施之间的电气连接网络。这种互联系统允许资源共享、负载平衡，并增强电力供应的可靠性。电站之间的互联互通使不同的发电厂，无论是煤炭、天然气、水电还是风能和太阳能等可再生能源，都能够无缝协作。当一个电站面临需求激增时，网络中的其他电站可以通过提供额外的电力来进行补偿。这种灵活性至关重要，尤其是在用电高峰期，当电力需求可能急剧上升时。此外，电站之间的互联互通在增强电网稳定性方面发挥了重要作用。如果一个电站发生故障，互联网络可以从其他电站重新调度电力，以保持稳定的供应。这种冗余对于防止停电并确保消费者持续获得电力至关重要。此外，电站之间的互联互通支持可再生能源源进入电网。随着越来越多的国家转向可持续能源解决方案，连接各种发电设施的能力变得愈加重要。例如，位于阳光充足地区的太阳能电站可以与风能潜力高的风电场相连。这意味着即使一种能源的产量不足，另一种也可以填补空缺，从而导致更可靠和可持续的能源供应。从经济角度来看，电站之间的互联互通可以降低消费者的电费。通过允许电力在各个地区自由流动，减少了每个地区维持自身基载发电能力的需求。相反，过剩的电能可以出售并分配到最需要的地方，优化整体能源市场的效率。这不仅通过降低电价使消费者受益，还鼓励对多样化能源来源的投资。总之，电站之间的互联互通是现代能源系统的基本方面，增强了可靠性，支持可持续性，并促进经济效率。随着我们朝着优先考虑可再生能源和智能电网的未来发展，理解和改善这些互联互通对于满足我们社会日益增长的能源需求至关重要。通过促进不同发电方式之间的合作，我们可以创建一个韧性强、适应性强的能源基础设施，使每个人都能受益。