installed power

简明释义

装机功率

英英释义

例句

1.It's important to monitor the installed power to ensure efficient energy production.

监测装机容量以确保高效的能源生产是很重要的。

2.The government is investing in projects to increase the installed power of renewable energy sources.

政府正在投资于项目，以增加可再生能源的装机容量。

3.The total installed power of the solar farm is 5 megawatts.

这个太阳能农场的总装机容量为5兆瓦。

4.The installed power of the hydroelectric plant has increased due to recent upgrades.

由于最近的升级，这个水电站的装机容量有所增加。

5.We need to calculate the installed power for our new wind turbine project.

我们需要计算我们新风力发电项目的装机容量。

作文

The term installed power refers to the total capacity of energy generation equipment that is available for use in a power system. This concept is crucial in the energy sector, as it helps to determine how much electricity can be generated and supplied to meet the demands of consumers. In essence, installed power is the sum of all the power outputs from various sources of energy, including fossil fuels, nuclear, and renewable sources such as wind and solar. Understanding installed power is essential for energy planning and management, especially in the context of increasing energy demand and the push for sustainable energy solutions.In recent years, many countries have been investing heavily in renewable energy sources to reduce their reliance on fossil fuels. As a result, the installed power from renewable sources has been steadily increasing. For instance, countries like Germany and China have made significant strides in expanding their wind and solar power capacities. This shift not only contributes to reducing greenhouse gas emissions but also enhances energy security by diversifying the energy mix. However, it is important to note that while the installed power of renewables is growing, the actual power generated can vary due to factors such as weather conditions and time of day.Moreover, the balance between installed power and actual energy consumption is critical. If the installed power exceeds the demand, it can lead to wasted resources and economic inefficiencies. Conversely, if the demand surpasses the installed power, it could result in blackouts and energy shortages. Therefore, energy planners must carefully analyze consumption patterns and forecast future needs to ensure that the installed power aligns with the expected demand.Additionally, the concept of installed power is not static; it evolves with technological advancements and policy changes. For example, the introduction of energy storage technologies, such as batteries, allows for better management of energy supply and demand. By storing excess energy generated during low-demand periods, these technologies can help balance the grid and make the most of the installed power. This flexibility is crucial as more intermittent renewable sources are integrated into the energy mix.Furthermore, the role of government policies and incentives cannot be overlooked when discussing installed power. Many governments offer subsidies and tax breaks for renewable energy projects, which encourage investments and increase the installed power of clean energy sources. These policies not only promote environmental sustainability but also stimulate economic growth by creating jobs in the renewable energy sector.In conclusion, the concept of installed power is vital for understanding the dynamics of energy generation and consumption. It encompasses the total capacity of power systems and plays a key role in energy planning, sustainability efforts, and economic development. As the world moves towards a greener future, the focus on increasing installed power from renewable sources will continue to shape the global energy landscape. Ensuring that this capacity meets the demands of consumers while balancing efficiency and sustainability will be one of the greatest challenges and opportunities in the coming decades.

“已装机容量”一词指的是在电力系统中可用的能源发电设备的总容量。这个概念在能源行业至关重要，因为它有助于确定可以生成和供应给消费者的电力数量。实质上，“已装机容量”是来自各种能源来源的所有功率输出的总和，包括化石燃料、核能以及风能和太阳能等可再生能源。理解“已装机容量”对于能源规划和管理至关重要，尤其是在能源需求不断增加和推动可持续能源解决方案的背景下。近年来，许多国家在可再生能源方面进行了大量投资，以减少对化石燃料的依赖。因此，来自可再生能源的“已装机容量”稳步增加。例如，德国和中国等国在扩大风能和太阳能发电能力方面取得了显著进展。这种转变不仅有助于减少温室气体排放，还通过多样化能源结构增强了能源安全。然而，值得注意的是，尽管可再生能源的“已装机容量”在增长，但由于天气条件和日间时间等因素，实际发电量可能会有所波动。此外，“已装机容量”和实际能源消费之间的平衡至关重要。如果“已装机容量”超过需求，可能导致资源浪费和经济低效。相反，如果需求超过“已装机容量”，可能会导致停电和能源短缺。因此，能源规划者必须仔细分析消费模式并预测未来需求，以确保“已装机容量”与预期需求相一致。此外，“已装机容量”的概念并不是静态的；随着技术进步和政策变化而不断演变。例如，能源存储技术（如电池）的引入使得能源供需管理更加有效。通过在低需求期间储存过剩的能源，这些技术可以帮助平衡电网，并最大限度地利用“已装机容量”。这种灵活性在更多间歇性可再生能源整合到能源结构中时尤为重要。此外，政府政策和激励措施在讨论“已装机容量”时也不可忽视。许多政府为可再生能源项目提供补贴和税收减免，这鼓励了投资并增加了清洁能源来源的“已装机容量”。这些政策不仅促进了环境可持续性，还通过在可再生能源领域创造就业机会刺激了经济增长。总之，“已装机容量”的概念对于理解能源生成和消费的动态至关重要。它涵盖了电力系统的总容量，并在能源规划、可持续发展和经济发展中发挥着关键作用。随着世界朝着更绿色的未来迈进，增加可再生能源的“已装机容量”的关注将继续塑造全球能源格局。确保这一容量满足消费者的需求，同时平衡效率和可持续性，将是未来几十年面临的最大挑战和机遇之一。