pumped storage power station

简明释义

抽水蓄能电站

英英释义

例句

1.The new pumped storage power station 抽水蓄能电站 will help balance the electricity supply during peak hours.

新的抽水蓄能电站将有助于在高峰时段平衡电力供应。

2.The pumped storage power station 抽水蓄能电站 operates by moving water between two reservoirs.

该抽水蓄能电站通过在两个水库之间移动水来运行。

3.Investing in a pumped storage power station 抽水蓄能电站 can enhance renewable energy integration.

投资于一个抽水蓄能电站可以增强可再生能源的整合。

4.When demand peaks, the stored water is released to generate electricity at the pumped storage power station 抽水蓄能电站.

当需求达到高峰时，储存的水被释放以在抽水蓄能电站中发电。

5.During low demand, excess energy is used to pump water to the upper reservoir of the pumped storage power station 抽水蓄能电站.

在需求低时，多余的能量用于将水泵送到抽水蓄能电站的上游水库。

作文

In recent years, the demand for renewable energy sources has increased significantly due to the growing concerns about climate change and the depletion of fossil fuels. One of the most effective methods of storing and managing energy from renewable sources, such as wind and solar, is through a technology known as pumped storage power station. A pumped storage power station (抽水蓄能电站) is a type of hydroelectric power generation system that stores energy by using two water reservoirs at different elevations. During periods of low energy demand, excess electricity is used to pump water from the lower reservoir to the upper reservoir. When energy demand increases, the stored water is released back down to the lower reservoir, passing through turbines to generate electricity.The primary advantage of a pumped storage power station is its ability to provide a rapid response to fluctuations in energy demand. This flexibility makes it an essential component of modern energy grids, especially those that rely heavily on intermittent renewable energy sources. For instance, when the sun shines brightly or the wind blows strongly, there may be an excess of electricity generated. Instead of wasting this energy, it can be stored in a pumped storage power station, ready to be utilized when demand rises or when renewable generation decreases.Moreover, pumped storage power stations contribute to grid stability. They help to balance supply and demand, ensuring that there is always enough electricity available to meet the needs of consumers. This balancing act is crucial, as any significant imbalance can lead to power outages or damage to the infrastructure. By integrating pumped storage power stations into the energy mix, utility companies can enhance the reliability of the grid while also supporting the transition to cleaner energy sources.However, the implementation of pumped storage power stations is not without challenges. The construction of such facilities requires significant investment and careful planning, particularly regarding environmental impacts. The creation of large reservoirs can disrupt local ecosystems and communities. Therefore, it is vital that developers conduct thorough assessments and engage with stakeholders to minimize negative effects.In addition, geographical limitations can restrict the development of pumped storage power stations. Not all locations have the necessary topography to support such systems, which means that their deployment is often site-specific. As a result, while pumped storage power stations are an important tool for energy management, they cannot be the sole solution to energy storage challenges.In conclusion, pumped storage power stations play a critical role in the future of energy systems, particularly as we strive to incorporate more renewable energy into our grids. Their unique ability to store and dispatch energy quickly makes them invaluable for maintaining grid stability and reliability. While there are challenges to their implementation, the benefits they offer in terms of energy management and environmental sustainability make them a key player in the transition towards a greener future. As we continue to innovate and improve energy technologies, pumped storage power stations will undoubtedly remain a vital part of the energy landscape.

近年来，由于对气候变化的日益关注和化石燃料的枯竭，可再生能源的需求显著增加。存储和管理来自可再生能源（如风能和太阳能）的能量的最有效方法之一是通过一种称为抽水蓄能电站的技术。抽水蓄能电站是一种水电发电系统，通过使用两个不同高度的水库来存储能量。在低能量需求期间，利用多余的电力将水从下水库泵送到上水库。当能量需求增加时，储存的水被释放回下水库，经过涡轮机发电。抽水蓄能电站的主要优点是能够快速响应能量需求的波动。这种灵活性使其成为现代能源网络中不可或缺的组成部分，尤其是在那些严重依赖间歇性可再生能源的网络中。例如，当阳光强烈或风力强劲时，可能会产生过剩的电力。为了避免浪费这部分能量，可以将其存储在抽水蓄能电站中，以便在需求上升或可再生发电减少时使用。此外，抽水蓄能电站有助于电网稳定。它们有助于平衡供需，确保始终有足够的电力可供消费者使用。这种平衡至关重要，因为任何显著的不平衡都可能导致停电或基础设施损坏。通过将抽水蓄能电站纳入能源组合，公用事业公司可以增强电网的可靠性，同时支持向更清洁能源源的过渡。然而，抽水蓄能电站的实施并非没有挑战。这些设施的建设需要大量投资和周密规划，特别是在环境影响方面。大型水库的建立可能会破坏当地生态系统和社区。因此，开发者必须进行全面评估，并与利益相关者进行沟通，以尽量减少负面影响。此外，地理限制可能会限制抽水蓄能电站的发展。并非所有地点都有必要的地形来支持这样的系统，这意味着它们的部署通常是特定于地点的。因此，虽然抽水蓄能电站是解决能源存储挑战的重要工具，但它们不能成为唯一的解决方案。总之，抽水蓄能电站在未来能源系统中发挥着关键作用，尤其是在我们努力将更多可再生能源纳入电网时。它们独特的快速存储和调配能量的能力，使它们在维护电网稳定性和可靠性方面极具价值。尽管实施过程中存在挑战，但它们在能源管理和环境可持续性方面所提供的好处，使其在向更绿色未来的过渡中成为关键角色。随着我们不断创新和改善能源技术，抽水蓄能电站无疑将继续成为能源格局中不可或缺的一部分。