equivalent full power days

简明释义

等效满功率天数

英英释义

例句

1.Our calculations show that the battery storage can provide energy for 5 equivalent full power days 相当于 without any sunlight.

我们的计算显示，电池储存可以在没有阳光的情况下提供5个等效满功率天数的能量。

2.The new hydroelectric plant is expected to contribute an additional 50 equivalent full power days 相当于 annually.

新的水电站预计每年将额外贡献50个等效满功率天数。

3.After evaluating the energy output, we found that the wind turbine operated for 15 equivalent full power days 相当于 last quarter.

经过评估能源输出，我们发现风力发电机在上个季度运行了15个等效满功率天数。

4.To maximize efficiency, we aim for at least 20 equivalent full power days 相当于 during peak season.

为了最大化效率，我们的目标是在旺季至少达到20个等效满功率天数。

5.The solar panel system generated 300 kWh this month, which is equivalent to 相当于 10 等效满功率天数.

这个太阳能电池板系统本月产生了300千瓦时，相当于10个等效满功率天数。

作文

In the field of energy production and management, the term equivalent full power days is crucial for understanding the efficiency and output of power generation systems. This concept refers to the total number of days that a power plant operates at its maximum capacity, allowing for a standardized comparison between different plants or energy sources. For example, if a solar power plant generates electricity for ten hours a day at full capacity for three days, it accumulates equivalent full power days equivalent to 0.125 days of full operation. This metric is particularly useful when analyzing renewable energy sources, which often experience variability in their output due to weather conditions or other factors.The significance of equivalent full power days extends beyond mere numbers; it serves as a benchmark for assessing the performance of energy systems. Utilities and energy companies can use this measurement to evaluate how well a facility is meeting its expected output and to identify areas for improvement. For instance, if a wind farm consistently underperforms compared to its equivalent full power days targets, operators may need to investigate potential issues such as equipment malfunctions or suboptimal site selection.Moreover, equivalent full power days also play a vital role in regulatory frameworks and energy policies. Governments and organizations often set renewable energy targets based on the expected contributions from various sources. By converting these contributions into equivalent full power days, policymakers can better assess whether they are on track to meet their energy goals. This approach not only aids in planning but also fosters transparency and accountability within the energy sector.Another important aspect of equivalent full power days is its relevance in financial assessments. Investors and stakeholders look for reliable metrics to gauge the viability and profitability of energy projects. By analyzing the equivalent full power days of a power plant, they can make informed decisions regarding investments and resource allocation. A project with a high number of equivalent full power days is often viewed as more attractive, indicating a higher likelihood of generating revenue and achieving return on investment.As the world shifts towards more sustainable energy solutions, the importance of equivalent full power days will only increase. With the growing adoption of technologies like solar and wind, understanding how these systems perform relative to their full capacity becomes essential. It allows stakeholders to optimize operations, enhance grid reliability, and ensure that energy production aligns with consumption demands.In conclusion, the concept of equivalent full power days is a valuable tool in the energy sector, providing insights into the performance, efficiency, and reliability of power generation systems. Whether for operational assessment, policy formulation, or investment analysis, this metric offers a standardized way to evaluate energy production. As we continue to explore and expand our reliance on renewable energy sources, mastering the understanding of equivalent full power days will be crucial for achieving a sustainable energy future.

在能源生产和管理领域，术语等效满功率天数对于理解和评估发电系统的效率和输出至关重要。这个概念指的是发电厂以其最大容量运行的总天数，从而允许对不同的发电厂或能源来源进行标准化比较。例如，如果一个太阳能发电厂每天以满载能力发电十小时，持续三天，那么它累计的等效满功率天数相当于0.125天的满负荷运行。这一指标在分析可再生能源时尤为有用，因为可再生能源的输出常常因天气条件或其他因素而出现波动。等效满功率天数的重要性超越了单纯的数字，它作为评估能源系统性能的基准。公用事业和能源公司可以利用这一测量来评估设施是否达到了预期的产出，并识别改进的领域。例如，如果一个风电场的表现持续低于其等效满功率天数目标，运营商可能需要调查潜在问题，如设备故障或不理想的选址。此外，等效满功率天数在监管框架和能源政策中也发挥着至关重要的作用。政府和组织通常根据各种能源来源的预期贡献设定可再生能源目标。通过将这些贡献转换为等效满功率天数，政策制定者能够更好地评估他们是否在实现能源目标的轨道上。这种方法不仅有助于规划，还促进了能源领域的透明度和问责制。等效满功率天数的另一个重要方面是其在财务评估中的相关性。投资者和利益相关者寻求可靠的指标来评估能源项目的可行性和盈利能力。通过分析发电厂的等效满功率天数，他们可以做出关于投资和资源分配的明智决策。具有高等效满功率天数的项目通常被视为更具吸引力，表明产生收入和实现投资回报的可能性更高。随着世界向更可持续的能源解决方案转变，等效满功率天数的重要性只会增加。随着太阳能和风能等技术的广泛采用，理解这些系统相对于其满载能力的表现变得至关重要。这使利益相关者能够优化运营、增强电网可靠性，并确保能源生产与消费需求保持一致。总之，等效满功率天数的概念是能源部门的一个宝贵工具，为发电系统的性能、效率和可靠性提供了深入的见解。无论是用于操作评估、政策制定还是投资分析，这一指标都提供了一种标准化的方式来评估能源生产。随着我们继续探索和扩大对可再生能源的依赖，掌握等效满功率天数的理解将对实现可持续能源未来至关重要。