peak power output adjustment

简明释义

最大输出功率蝶

英英释义

例句

1.To comply with regulations, the facility implemented a peak power output adjustment 峰值功率输出调整 protocol.

为了遵守规定，该设施实施了峰值功率输出调整 peak power output adjustment 协议。

2.During the test, we observed that the peak power output adjustment 峰值功率输出调整 significantly improved performance under load.

在测试过程中，我们观察到峰值功率输出调整 peak power output adjustment 在负载下显著提高了性能。

3.The team is currently working on the peak power output adjustment 峰值功率输出调整 algorithms for renewable energy systems.

团队目前正在为可再生能源系统开发峰值功率输出调整 peak power output adjustment 算法。

4.The software update includes features for peak power output adjustment 峰值功率输出调整 to enhance energy efficiency.

软件更新包括用于增强能源效率的峰值功率输出调整 peak power output adjustment 功能。

5.The engineer conducted a thorough analysis to determine the optimal settings for peak power output adjustment 峰值功率输出调整 in the new turbine design.

工程师进行了全面分析，以确定新涡轮设计中最佳的峰值功率输出调整 peak power output adjustment 设置。

作文

In the world of energy production, the term peak power output adjustment refers to the process of modifying the maximum power output of a system to meet varying demand levels. This concept is particularly crucial in renewable energy sources, such as wind and solar power, where energy generation can fluctuate significantly due to environmental conditions. Understanding peak power output adjustment is essential for optimizing energy efficiency and ensuring a stable supply of power to consumers.The significance of peak power output adjustment becomes evident when we consider the increasing reliance on renewable energy. For instance, during sunny days, solar panels can generate an excess of electricity, leading to a situation where the power produced exceeds the immediate demand. In such cases, implementing peak power output adjustment allows energy producers to reduce the output temporarily, preventing wastage and maintaining grid stability. This adjustment can be achieved through various means, including energy storage systems, demand response strategies, and grid management technologies.One effective method for achieving peak power output adjustment is through the use of battery storage systems. These systems store excess energy generated during peak production times and release it when demand increases. By balancing the supply and demand, battery storage not only enhances the reliability of the power supply but also contributes to reducing greenhouse gas emissions by minimizing reliance on fossil fuel-based energy sources.Moreover, peak power output adjustment plays a vital role in managing the challenges posed by intermittent energy sources. Wind energy, for example, can be unpredictable, with power generation dependent on wind speeds. By adjusting the output of wind turbines in response to real-time demand, operators can ensure that the energy grid remains stable and efficient. This capability is critical for integrating more renewable energy into the existing grid while maintaining reliability and reducing costs.Another aspect of peak power output adjustment involves demand response programs, which encourage consumers to adjust their energy usage during peak demand periods. By offering incentives for users to reduce consumption or shift usage to off-peak times, utilities can effectively manage the overall demand on the grid. This not only helps in maintaining equilibrium between supply and demand but also reduces the need for additional power generation, which can be costly and environmentally damaging.In conclusion, peak power output adjustment is a fundamental concept in modern energy management, especially with the growing integration of renewable energy sources. It encompasses various strategies aimed at aligning energy production with consumption patterns, thereby enhancing efficiency and sustainability. As we continue to transition towards a greener energy future, mastering the principles of peak power output adjustment will be essential for ensuring that our energy systems remain resilient and capable of meeting the demands of a changing world.

在能源生产的世界中，术语峰值功率输出调整指的是修改系统最大功率输出以满足不同需求水平的过程。这个概念在可再生能源（如风能和太阳能）中尤为重要，因为由于环境条件的变化，能源生成可能会显著波动。理解峰值功率输出调整对于优化能源效率和确保稳定的电力供应至关重要。当我们考虑对可再生能源的日益依赖时，峰值功率输出调整的重要性变得显而易见。例如，在阳光明媚的日子里，太阳能电池板可以产生过量的电力，导致所产生的电力超过即时需求。在这种情况下，实施峰值功率输出调整允许能源生产商暂时减少输出，防止浪费并维持电网的稳定。这种调整可以通过多种方式实现，包括能源存储系统、需求响应策略和电网管理技术。实现峰值功率输出调整的一种有效方法是使用电池存储系统。这些系统在高峰生产期存储多余的能量，并在需求增加时释放出来。通过平衡供需，电池存储不仅增强了电力供应的可靠性，还通过减少对化石燃料能源的依赖来帮助减少温室气体排放。此外，峰值功率输出调整在管理间歇性能源源带来的挑战中发挥着至关重要的作用。例如，风能可能是不稳定的，电力生成依赖于风速。通过根据实时需求调整风力涡轮机的输出，操作员可以确保能源电网保持稳定和高效。这一能力对于将更多可再生能源整合到现有电网中，同时保持可靠性和降低成本至关重要。峰值功率输出调整的另一个方面涉及需求响应计划，这些计划鼓励消费者在高峰需求期调整其能源使用。通过为用户提供减少消费或将使用时间转移到非高峰期的激励措施，公用事业公司可以有效管理电网上的整体需求。这不仅有助于维持供需之间的平衡，还减少了额外发电的必要性，而这往往是昂贵且对环境有害的。总之，峰值功率输出调整是现代能源管理中的一个基本概念，尤其是在越来越多地整合可再生能源的背景下。它涵盖了旨在将能源生产与消费模式对齐的各种策略，从而提高效率和可持续性。随着我们继续向更绿色的能源未来过渡，掌握峰值功率输出调整的原则对于确保我们的能源系统保持韧性并能够满足不断变化的世界的需求将是至关重要的。