peak power limitation

简明释义

峰值功率限制

英英释义

例句

1.The solar inverter has a peak power limitation 峰值功率限制 of 5 kW, ensuring it does not exceed this output.

这个太阳能逆变器的峰值功率限制 峰值功率限制为5千瓦，以确保其输出不超过此值。

2.In electric vehicles, a peak power limitation 峰值功率限制 helps prevent battery overloading during acceleration.

在电动车中，峰值功率限制 峰值功率限制有助于防止加速时电池过载。

3.To comply with regulations, the factory implemented a peak power limitation 峰值功率限制 on its machinery.

为了遵守规定，工厂对其机器实施了峰值功率限制 峰值功率限制。

4.Due to the peak power limitation 峰值功率限制, the generator cannot provide more than 10 kW at any given time.

由于峰值功率限制 峰值功率限制，发电机在任何时候都不能提供超过10千瓦的功率。

5.The energy management system incorporates a peak power limitation 峰值功率限制 feature to optimize usage.

能源管理系统包含一个峰值功率限制 峰值功率限制功能，以优化使用。

作文

In recent years, the concept of peak power limitation has gained significant attention in the fields of energy management and sustainable development. Peak power limitation refers to the strategy of managing and reducing the maximum power demand during peak periods to ensure a stable and efficient energy supply. This is particularly crucial as urban populations continue to grow and the demand for electricity rises exponentially. Without effective management of peak power usage, energy systems can become overloaded, leading to blackouts and increased costs for consumers.One of the primary reasons for implementing peak power limitation is to alleviate stress on the electrical grid. During peak hours, typically in the late afternoon and early evening when people return home from work, the demand for electricity can surge dramatically. This spike in demand can strain the existing infrastructure, which may not be designed to handle such high loads. By employing peak power limitation strategies, utilities can encourage consumers to shift their usage patterns, thereby flattening the demand curve and preventing potential outages.There are several methods through which peak power limitation can be achieved. One effective approach is through demand response programs, where consumers are incentivized to reduce their electricity usage during peak times. For instance, businesses might receive lower rates if they agree to lower their energy consumption during peak hours. Additionally, smart grid technology plays a vital role in monitoring and managing energy distribution, allowing for real-time adjustments based on current demand levels.Another important aspect of peak power limitation is the integration of renewable energy sources into the grid. Solar and wind energy, while abundant, can be intermittent. By utilizing energy storage systems, such as batteries, excess energy generated during off-peak times can be stored and released during peak demand periods. This not only helps in managing peak loads but also promotes the use of cleaner energy sources, contributing to a more sustainable future.Moreover, public awareness and education about peak power limitation are essential. Consumers often do not realize the impact of their energy consumption habits on the overall system. Through educational campaigns, individuals can learn how to adjust their usage patterns, such as running dishwashers or washing machines during off-peak hours. These small changes can collectively make a significant difference in reducing peak demand.In conclusion, peak power limitation is a critical strategy in modern energy management. As we face increasing energy demands and the challenges of climate change, implementing effective measures to limit peak power usage will be essential for ensuring a reliable and sustainable energy future. By embracing innovative technologies, encouraging consumer participation, and promoting renewable energy, we can successfully navigate the complexities of energy consumption and contribute to a healthier planet. Understanding and applying the principles of peak power limitation will not only benefit utility companies but also empower consumers to play an active role in energy conservation.

近年来，峰值功率限制的概念在能源管理和可持续发展领域引起了广泛关注。峰值功率限制指的是在高峰时期管理和减少最大功率需求的策略，以确保稳定和高效的能源供应。这一点尤为重要，因为城市人口不断增长，电力需求呈指数级上升。如果不有效管理峰值功率的使用，能源系统可能会过载，导致停电和消费者成本的增加。实施峰值功率限制的主要原因之一是缓解电网的压力。在高峰时段，通常是在傍晚和晚上，人们下班回家时，电力需求可能会急剧上升。这种需求激增会给现有基础设施带来压力，而这些基础设施可能并未设计成能够承受如此高的负荷。通过采用峰值功率限制策略，公用事业公司可以鼓励消费者调整使用模式，从而平坦化需求曲线，防止潜在的停电。实现峰值功率限制的方法有几种。一种有效的方法是通过需求响应程序，在高峰时段，消费者被激励减少电力使用。例如，企业如果同意在高峰时段降低能耗，可能会获得较低的电价。此外，智能电网技术在监测和管理能源分配方面发挥着至关重要的作用，允许根据当前的需求水平进行实时调整。峰值功率限制的另一个重要方面是将可再生能源源融入电网。太阳能和风能虽然丰富，但可能是间歇性的。通过利用能源储存系统，如电池，可以在低峰期储存多余的能量，并在高峰需求期间释放。这不仅有助于管理峰值负荷，还有助于促进清洁能源的使用，为更可持续的未来做出贡献。此外，公众对峰值功率限制的意识和教育至关重要。消费者往往没有意识到他们的能源消费习惯对整体系统的影响。通过教育宣传，个人可以学习如何调整他们的使用模式，例如在非高峰时段运行洗碗机或洗衣机。这些小变化可以在减少峰值需求方面产生显著影响。总之，峰值功率限制是现代能源管理中的关键策略。随着我们面临日益增长的能源需求和气候变化的挑战，实施有效措施以限制峰值功率使用对于确保可靠和可持续的能源未来至关重要。通过拥抱创新技术、鼓励消费者参与和推广可再生能源，我们可以成功应对能源消费的复杂性，为地球的健康作出贡献。理解和应用峰值功率限制的原则不仅有利于公用事业公司，而且还赋予消费者在节能方面发挥积极作用的能力。