power output variation

简明释义

输出功率变化

英英释义

例句

1.To ensure stability, the grid operator monitors power output variation 功率输出变化 from various sources.

为了确保稳定，电网运营商监控来自各种来源的功率输出变化。

2.Researchers are studying the power output variation 功率输出变化 in relation to temperature fluctuations.

研究人员正在研究与温度波动相关的功率输出变化。

3.The engineer measured the power output variation 功率输出变化 of the solar panels over different times of the day.

工程师测量了太阳能电池板在一天不同时间的功率输出变化。

4.The power output variation 功率输出变化 during peak hours can significantly affect energy pricing.

高峰时段的功率输出变化会显著影响能源定价。

5.Understanding the power output variation 功率输出变化 is crucial for optimizing wind turbine performance.

理解功率输出变化对于优化风力涡轮机性能至关重要。

作文

In the field of engineering and energy production, understanding the concept of power output variation is crucial for optimizing performance and ensuring reliability. Power output variation refers to the fluctuations in the amount of power generated by a system over time. These variations can be caused by several factors, including changes in demand, environmental conditions, and the operational efficiency of the power generation equipment.For instance, in renewable energy systems such as wind turbines or solar panels, power output variation is often significant due to the intermittent nature of these energy sources. Wind speeds can change rapidly, and sunlight can be obstructed by clouds, leading to unpredictable changes in the amount of electricity produced. This variability poses challenges for grid operators who must balance supply and demand to maintain stability in the electrical grid.To manage power output variation, engineers employ various strategies. One common approach is to integrate energy storage systems, such as batteries, which can absorb excess power during periods of high generation and release it during times of low generation. This helps to smooth out the fluctuations and provide a more consistent power supply. Additionally, advanced forecasting techniques can predict changes in weather patterns, allowing operators to prepare for expected power output variation and adjust their operations accordingly.Moreover, conventional power plants, such as those fueled by natural gas or coal, also experience power output variation. Factors such as fuel quality, maintenance schedules, and operational strategies can influence the efficiency and output of these plants. By implementing real-time monitoring and control systems, operators can optimize the performance of these facilities, reducing unwanted variations in power output.The impact of power output variation extends beyond just technical considerations; it also has economic implications. Energy markets often experience price fluctuations based on supply and demand dynamics. When there is a significant power output variation, it can lead to price spikes or drops, affecting both producers and consumers. Understanding these dynamics allows stakeholders to make informed decisions and develop strategies to mitigate risks associated with power market volatility.In conclusion, power output variation is a fundamental concept in the energy sector that encompasses the fluctuations in power generation. Its implications are vast, affecting everything from grid stability to economic performance. As the world increasingly shifts towards renewable energy sources, understanding and managing power output variation will become even more critical in ensuring a reliable and efficient energy system. Engineers and policymakers must work together to develop innovative solutions that address these challenges, paving the way for a sustainable energy future.

在工程和能源生产领域，理解功率输出变化的概念对于优化性能和确保可靠性至关重要。功率输出变化是指系统在一段时间内生成的功率量的波动。这些变化可能由多个因素引起，包括需求变化、环境条件以及发电设备的运行效率。例如，在风力涡轮机或太阳能电池板等可再生能源系统中，功率输出变化通常由于这些能源来源的不稳定性而显著。风速可以迅速变化，阳光可能被云层遮挡，导致产生的电力量不可预测的变化。这种可变性给电网运营商带来了挑战，他们必须平衡供需，以维持电网的稳定性。为了管理功率输出变化，工程师采用了各种策略。一种常见的方法是集成储能系统，例如电池，这可以在发电高峰期吸收多余的电力，并在发电低谷时释放出来。这有助于平滑波动，提供更一致的电力供应。此外，先进的预测技术可以预测天气模式的变化，使运营商能够为预期的功率输出变化做好准备，并相应调整其操作。此外，传统的燃气或煤炭发电厂也会经历功率输出变化。燃料质量、维护计划和操作策略等因素会影响这些工厂的效率和输出。通过实施实时监控和控制系统，运营商可以优化这些设施的性能，减少不必要的功率输出变化。功率输出变化的影响不仅限于技术考虑，还具有经济意义。能源市场通常会因供需动态而经历价格波动。当出现显著的功率输出变化时，可能导致价格飙升或下跌，影响生产者和消费者。理解这些动态使利益相关者能够做出明智的决策，并制定战略以减轻与电力市场波动相关的风险。总之，功率输出变化是能源领域的一个基本概念，涵盖了发电中的波动。其影响广泛，涉及从电网稳定性到经济表现的方方面面。随着世界日益转向可再生能源，理解和管理功率输出变化将变得更加关键，以确保可靠和高效的能源系统。工程师和政策制定者必须共同努力，开发创新解决方案来应对这些挑战，为可持续的能源未来铺平道路。