grid pulsing

简明释义

栅极脉冲法

英英释义

例句

1.To avoid outages, utilities must monitor grid pulsing closely.

为了避免停电，公用事业公司必须密切监测电网脉冲。

2.The new software can help manage grid pulsing to optimize energy distribution.

新软件可以帮助管理电网脉冲以优化能源分配。

3.The engineers are studying the effects of grid pulsing on the stability of the power supply.

工程师正在研究电网脉冲对电力供应稳定性的影响。

4.During the experiment, we observed significant changes in voltage due to grid pulsing.

在实验过程中，我们观察到由于电网脉冲导致电压发生显著变化。

5.Our team is developing a model to predict the outcomes of grid pulsing in urban areas.

我们的团队正在开发一个模型，以预测城市地区的电网脉冲结果。

作文

In recent years, the concept of energy management has gained significant attention due to the increasing demand for sustainable solutions. One of the innovative strategies that have emerged is known as grid pulsing, a technique that enhances the efficiency of power distribution systems. Understanding grid pulsing is essential for grasping how modern electrical grids can adapt to fluctuating energy demands and incorporate renewable energy sources effectively.At its core, grid pulsing refers to the method of controlling the flow of electricity in a grid by alternating between high and low energy outputs. This technique allows for better management of energy resources, ensuring that supply meets demand without overwhelming the system. For instance, during peak usage times, the grid can 'pulse' by temporarily increasing output to meet higher demands, and then reduce output when demand decreases. This dynamic adjustment helps to maintain stability within the grid and prevents blackouts or overloads.The implementation of grid pulsing is particularly beneficial in integrating renewable energy sources like solar and wind power. These energy sources are inherently variable; for example, solar energy production peaks during sunny days while wind energy generation fluctuates with weather conditions. By utilizing grid pulsing, energy providers can better accommodate these fluctuations. When there is an excess of renewable energy being produced, the grid can pulse to distribute this energy efficiently, minimizing waste and maximizing usage.Moreover, grid pulsing is not only advantageous for energy producers but also for consumers. With the rise of smart grids, consumers can benefit from lower energy costs during off-peak hours when the grid pulses down. This incentivizes users to shift their energy consumption patterns, leading to a more balanced and efficient energy use across the board. As a result, households and businesses can significantly reduce their energy bills while contributing to a more sustainable energy future.However, the successful implementation of grid pulsing requires advanced technology and infrastructure. Smart meters, real-time data analytics, and automated energy management systems are crucial components that enable this technique to function effectively. These technologies allow for precise monitoring of energy consumption patterns and facilitate the rapid adjustments necessary for grid pulsing. Additionally, regulatory frameworks must support the integration of such technologies to ensure that all stakeholders can benefit from the advancements in energy management.In conclusion, grid pulsing represents a pivotal development in the field of energy management, addressing the challenges of modern power distribution systems. By allowing for flexible energy flow and accommodating renewable energy sources, grid pulsing enhances both the reliability and sustainability of electrical grids. As we move towards a future that prioritizes clean energy, understanding and implementing techniques like grid pulsing will be crucial in achieving our energy goals. The potential benefits for both energy providers and consumers make it an exciting area of innovation that could shape the future of how we generate and consume electricity.

近年来，由于对可持续解决方案的需求不断增加，能源管理的概念引起了广泛关注。其中一种新兴的创新策略被称为电网脉动，这是一种提高电力分配系统效率的技术。理解电网脉动对于掌握现代电网如何适应波动的能源需求并有效整合可再生能源至关重要。从根本上讲，电网脉动是指通过在高能输出和低能输出之间交替控制电网中电流的流动。这种技术允许更好地管理能源资源，确保供应满足需求而不使系统过载。例如，在高峰使用时段，电网可以通过暂时增加输出以满足更高的需求，然后在需求减少时降低输出。这种动态调整有助于维持电网的稳定性，并防止停电或过载。电网脉动的实施在整合可再生能源方面尤其有利，如太阳能和风能。这些能源源本身具有变动性；例如，太阳能生产在阳光明媚的日子达到高峰，而风能发电则随着天气条件波动。通过利用电网脉动，能源供应商可以更好地适应这些波动。当有过量的可再生能源被生产时，电网可以脉动以有效分配这些能源，最大限度地减少浪费并最大化使用。此外，电网脉动不仅对能源生产者有利，对消费者也是如此。随着智能电网的兴起，消费者可以在电网脉动下降时受益于较低的能源成本。这激励用户调整他们的能源消费模式，从而导致整个系统的能源使用更加平衡和高效。因此，家庭和企业可以显著降低能源账单，同时为更可持续的能源未来做出贡献。然而，成功实施电网脉动需要先进的技术和基础设施。智能电表、实时数据分析和自动化能源管理系统是使这一技术有效运作的关键组成部分。这些技术允许精确监测能源消费模式，并促进电网脉动所需的快速调整。此外，监管框架必须支持这些技术的整合，以确保所有利益相关者都能从能源管理的进步中受益。总之，电网脉动代表了能源管理领域的重要发展，解决了现代电力分配系统面临的挑战。通过允许灵活的能源流动并适应可再生能源，电网脉动增强了电网的可靠性和可持续性。随着我们朝着优先考虑清洁能源的未来迈进，理解和实施像电网脉动这样的技术将对实现我们的能源目标至关重要。对能源供应商和消费者的潜在好处使其成为一个令人兴奋的创新领域，可能会塑造我们发电和消费电力的未来。