installed gross capacity

简明释义

总装机容量

英英释义

例句

1.The report showed that the installed gross capacity of wind power has doubled in the last five years.

报告显示，风能的装机总容量在过去五年中翻了一番。

2.To meet the growing electricity demand, we need to increase our installed gross capacity significantly.

为了满足日益增长的电力需求，我们需要显著增加我们的装机总容量。

3.Our new solar farm will add 50 MW to the installed gross capacity of the region.

我们的新太阳能农场将为该地区增加50兆瓦的装机总容量。

4.The installed gross capacity of renewable energy sources is rising rapidly worldwide.

可再生能源的装机总容量在全球范围内快速增长。

5.The power plant has an installed gross capacity of 500 megawatts.

该发电厂的装机总容量为500兆瓦。

作文

The concept of installed gross capacity is fundamental in the fields of energy generation and infrastructure development. It refers to the total amount of power that a facility can produce when operating at full capacity, without taking into account any losses or inefficiencies that may occur during operation. Understanding installed gross capacity is crucial for energy planners, policymakers, and investors as it provides a benchmark for evaluating the potential output of energy systems. In recent years, the demand for renewable energy sources has surged, leading to an increased focus on the installed gross capacity of solar, wind, and hydroelectric power plants. For instance, a solar farm with an installed gross capacity of 100 megawatts (MW) indicates that, under optimal conditions, it can generate 100 MW of electricity. However, actual production may vary based on factors such as weather conditions, maintenance schedules, and technological efficiency. The significance of installed gross capacity extends beyond mere numbers; it plays a critical role in energy policy and planning. Governments often set targets for renewable energy adoption based on the installed gross capacity of different technologies. For example, a country aiming to achieve a specific percentage of its energy from renewables will assess its current installed gross capacity and determine what additional capacity needs to be developed to meet those goals. Moreover, understanding installed gross capacity helps in grid management. As more renewable sources are integrated into the energy mix, grid operators must consider the installed gross capacity of these sources to ensure a reliable supply of electricity. This involves balancing supply and demand, especially since renewable sources like wind and solar are variable and can fluctuate throughout the day. Investors also pay close attention to installed gross capacity when evaluating potential projects. A higher installed gross capacity typically signifies a greater potential for revenue generation, but it also comes with risks. Factors such as regulatory changes, market competition, and technological advancements can impact the profitability of energy projects. Therefore, a thorough analysis of installed gross capacity is essential for making informed investment decisions. In conclusion, the term installed gross capacity encapsulates a vital aspect of energy production and infrastructure development. It serves as a key indicator of a facility's potential output and has far-reaching implications for energy policy, grid management, and investment strategies. As the world continues to transition towards sustainable energy solutions, a clear understanding of installed gross capacity will be indispensable for all stakeholders involved in the energy sector. Ultimately, the effective utilization and expansion of installed gross capacity will play a pivotal role in meeting global energy demands while addressing environmental concerns. By investing in technologies that enhance the installed gross capacity of clean energy sources, we can pave the way for a more sustainable and resilient energy future.

“已安装总容量”这一概念在能源生产和基础设施发展领域中至关重要。它指的是一个设施在满负荷运行时能够产生的总功率，而不考虑在运行过程中可能出现的任何损失或低效。理解“已安装总容量”对能源规划者、政策制定者和投资者至关重要，因为它提供了评估能源系统潜在输出的基准。近年来，对可再生能源的需求激增，导致人们越来越关注太阳能、风能和水电站的“已安装总容量”。例如，一个“已安装总容量”为100兆瓦（MW）的太阳能电站表示，在最佳条件下，它可以产生100 MW的电力。然而，实际产量可能会因天气条件、维护计划和技术效率等因素而有所不同。“已安装总容量”的重要性不仅仅体现在数字上；它在能源政策和规划中发挥着关键作用。各国政府通常根据不同技术的“已安装总容量”设定可再生能源采用目标。例如，一个国家如果希望实现特定比例的能源来自可再生资源，就会评估其当前的“已安装总容量”，并确定需要开发什么额外的容量以实现这些目标。此外，理解“已安装总容量”有助于电网管理。随着越来越多的可再生能源被纳入能源组合，电网运营商必须考虑这些来源的“已安装总容量”，以确保电力供应的可靠性。这涉及到供需平衡，尤其是因为风能和太阳能等可再生资源是可变的，可能会在一天内波动。投资者在评估潜在项目时也非常关注“已安装总容量”。更高的“已安装总容量”通常意味着更大的收入生成潜力，但这也伴随着风险。监管变化、市场竞争和技术进步等因素可能会影响能源项目的盈利能力。因此，彻底分析“已安装总容量”对于做出明智的投资决策至关重要。总之，术语“已安装总容量”涵盖了能源生产和基础设施发展的一个重要方面。它作为设施潜在输出的关键指标，对能源政策、电网管理和投资策略具有深远的影响。随着世界继续向可持续能源解决方案过渡，清晰理解“已安装总容量”对所有参与能源部门的利益相关者将是不可或缺的。最终，有效利用和扩展“已安装总容量”将在满足全球能源需求的同时解决环境问题方面发挥关键作用。通过投资于增强清洁能源来源的“已安装总容量”的技术，我们可以为实现更可持续和更有韧性的能源未来铺平道路。