installed capacity

简明释义

设备容量装机功率

英英释义

例句

1.The installed capacity of solar panels on rooftops in the city has doubled in the last three years.

该市屋顶上太阳能电池板的装机容量在过去三年中翻了一番。

2.Investing in new technology can help improve the efficiency of our installed capacity in the manufacturing sector.

投资新技术可以帮助提高我们制造业的装机容量效率。

3.The power plant has an installed capacity of 500 megawatts, which means it can generate enough electricity for 500,000 homes.

这座发电厂的装机容量为500兆瓦，这意味着它可以为500,000户家庭提供足够的电力。

4.To meet the growing demand, the government plans to increase the installed capacity of renewable energy sources by 30% over the next five years.

为了满足日益增长的需求，政府计划在未来五年内将可再生能源的装机容量提高30%。

5.The installed capacity of wind turbines in the region is expected to reach 1,000 megawatts by the end of the year.

该地区的装机容量预计到年底将达到1,000兆瓦。

作文

The concept of installed capacity is crucial in the energy sector, particularly when discussing the efficiency and effectiveness of power generation systems. In simple terms, installed capacity refers to the maximum output that a power plant can produce under specific conditions. This measurement is essential for understanding how much energy a facility can supply to the grid and plays a significant role in planning and managing energy resources. For instance, if a solar power plant has an installed capacity of 100 megawatts (MW), it means that under ideal weather conditions, it can generate up to 100 MW of electricity at any given moment.One of the primary reasons why installed capacity is so important is that it helps energy providers predict the availability of power. By knowing the installed capacity of various plants, utility companies can better manage their resources and ensure that they meet consumer demand. This is particularly vital during peak usage times when the demand for electricity surges. If a utility company knows that its total installed capacity across several plants is 1,000 MW, it can plan accordingly to avoid blackouts or brownouts by ensuring that enough power is generated to meet the demand.Moreover, the installed capacity of renewable energy sources, such as wind and solar, is becoming increasingly significant as the world shifts towards sustainable energy solutions. Unlike traditional fossil fuel plants, which can operate continuously, renewable energy plants often depend on environmental factors. For example, a wind farm's installed capacity might be 200 MW, but actual output can vary significantly based on wind conditions. Therefore, understanding the difference between installed capacity and actual generation is essential for effective energy management.In addition to its role in energy production, installed capacity also impacts economic factors within the energy market. Investors and stakeholders often look at a company's installed capacity to gauge its potential for growth and profitability. A company with a higher installed capacity may be seen as more stable and capable of meeting future energy demands, making it an attractive option for investment.Furthermore, advancements in technology continue to influence installed capacity figures. As new technologies emerge, they allow for more efficient energy production, meaning that plants can achieve higher installed capacity without necessarily increasing their physical size. This is particularly evident in the renewable sector, where innovations in turbine design and solar panel efficiency are leading to higher outputs from the same amount of land.In conclusion, the term installed capacity encapsulates a fundamental aspect of energy production and management. It not only defines the potential output of power generation facilities but also serves as a key indicator for utility companies, investors, and policymakers alike. Understanding installed capacity is essential for navigating the complexities of the modern energy landscape, particularly as we move towards a future that prioritizes sustainability and efficiency. By grasping this concept, stakeholders can make informed decisions that will shape the energy industry for years to come.

在能源领域，装机容量的概念至关重要，特别是在讨论发电系统的效率和有效性时。简单来说，装机容量指的是发电厂在特定条件下能够产生的最大输出。这一测量对于理解一个设施能向电网提供多少能量至关重要，并在规划和管理能源资源中发挥着重要作用。例如，如果一个太阳能发电厂的装机容量为100兆瓦（MW），这意味着在理想的天气条件下，它可以在任何给定时刻产生高达100 MW的电力。装机容量如此重要的主要原因之一是它帮助能源供应商预测电力的可用性。通过了解各个发电厂的装机容量，公用事业公司可以更好地管理其资源，并确保满足消费者的需求。这在用电高峰期尤为重要，因为此时对电力的需求急剧上升。如果一家公用事业公司知道其多个发电厂的总装机容量为1000 MW，它可以相应地进行计划，以避免停电或降压，确保生成足够的电力以满足需求。此外，可再生能源源的装机容量在全球向可持续能源解决方案转型的过程中变得越来越重要。与传统的化石燃料电厂不同，后者可以连续运行，可再生能源电厂往往依赖于环境因素。例如，风电场的装机容量可能为200 MW，但实际输出可能因风况而大幅波动。因此，理解装机容量与实际发电之间的差异对于有效的能源管理至关重要。除了在能源生产中的作用外，装机容量还影响着能源市场中的经济因素。投资者和利益相关者通常会查看公司的装机容量以评估其增长和盈利能力的潜力。拥有更高装机容量的公司可能被视为更稳定，能够满足未来的能源需求，因此成为投资的吸引选项。此外，技术的进步继续影响装机容量数据。随着新技术的出现，它们允许更高效的能源生产，这意味着发电厂可以在不增加物理规模的情况下实现更高的装机容量。这在可再生能源领域尤为明显，涡轮机设计和太阳能电池板效率的创新使得在相同土地上获得更高的输出成为可能。总之，装机容量这一术语概括了能源生产和管理的基本方面。它不仅定义了发电设施的潜在输出，还作为公用事业公司、投资者和政策制定者的重要指标。理解装机容量对于驾驭现代能源格局的复杂性至关重要，尤其是在我们向优先考虑可持续性和效率的未来迈进时。通过掌握这一概念，利益相关者可以做出明智的决策，从而塑造未来数年的能源行业。