grid pulsing

简明释义

栅极脉冲

英英释义

例句

1.The engineers monitored the system for signs of grid pulsing to ensure stability during peak demand.

工程师们监控系统是否出现电网脉动的迹象，以确保在高峰需求期间的稳定性。

2.Excessive grid pulsing can lead to equipment damage if not addressed promptly.

如果不及时处理，过度的电网脉动可能导致设备损坏。

3.They implemented new software to detect grid pulsing in real-time.

他们实施了新软件，以实时检测电网脉动。

4.The technician adjusted the settings to minimize grid pulsing in the renewable energy system.

技术员调整设置以最小化可再生能源系统中的电网脉动。

5.During the test, we observed grid pulsing which indicated fluctuations in power supply.

在测试过程中，我们观察到电网脉动，这表明电力供应存在波动。

作文

In recent years, the concept of energy management has become increasingly important, especially as we face challenges related to climate change and sustainability. One of the innovative strategies that has emerged in this context is known as grid pulsing. This term refers to a technique used to optimize the distribution of electricity across power grids by adjusting the flow of energy in short bursts or pulses. The idea is to enhance efficiency and reliability while minimizing waste. Grid pulsing can be particularly useful in areas where renewable energy sources, such as solar and wind, are prevalent. These sources often produce energy intermittently, which can lead to imbalances in supply and demand. By employing grid pulsing, energy providers can better match the production of renewable energy with the consumption patterns of users, thus stabilizing the grid. The benefits of grid pulsing extend beyond just efficiency. It also plays a significant role in reducing carbon emissions. By optimizing the use of renewable energy, we can decrease our reliance on fossil fuels, which are the primary contributors to greenhouse gas emissions. Furthermore, grid pulsing allows for more effective integration of various energy sources, enabling a smoother transition to a low-carbon energy system. Implementing grid pulsing requires advanced technology and infrastructure. Smart grids, equipped with sensors and automated systems, are essential for monitoring energy flow in real-time. These systems can quickly respond to changes in energy demand or supply, allowing for the precise control needed for effective grid pulsing. Moreover, energy storage solutions, such as batteries, play a crucial role in this process. They can store excess energy generated during peak production times and release it during periods of high demand, facilitating the pulse-like adjustments in energy distribution. Despite its advantages, grid pulsing is not without challenges. One major concern is the potential for increased wear and tear on electrical infrastructure due to the rapid fluctuations in energy flow. Utilities must ensure that their equipment can handle these changes without incurring damage or leading to outages. Additionally, regulatory frameworks need to evolve to accommodate new technologies and methods like grid pulsing, ensuring that they are safely and effectively integrated into existing systems. Looking ahead, the future of energy management will likely see a greater emphasis on techniques such as grid pulsing. As we strive for a more sustainable energy landscape, innovations that enhance efficiency and reduce environmental impact will be critical. By embracing strategies like grid pulsing, we can work towards a cleaner, more resilient energy future. This approach not only addresses current energy challenges but also sets the stage for a sustainable tomorrow, where renewable energy can thrive, and our dependence on non-renewable resources diminishes. In conclusion, understanding and implementing grid pulsing is vital for advancing our energy systems and promoting environmental stewardship.

近年来，能源管理的概念变得越来越重要，特别是在我们面临与气候变化和可持续性相关的挑战时。出现的一种创新策略被称为电网脉冲。这个术语指的是一种通过短时间内调整电流流动来优化电力在电网中的分配的技术。其目的是提高效率和可靠性，同时减少浪费。电网脉冲在可再生能源（如太阳能和风能）盛行的地区特别有用。这些能源通常会间歇性地产生能量，这可能导致供需不平衡。通过采用电网脉冲，能源供应商可以更好地匹配可再生能源的生产与用户的消费模式，从而稳定电网。电网脉冲的好处不仅仅在于效率。它在减少碳排放方面也发挥着重要作用。通过优化可再生能源的使用，我们可以减少对化石燃料的依赖，而化石燃料是温室气体排放的主要来源。此外，电网脉冲允许更有效地整合各种能源来源，使向低碳能源系统的过渡更加顺畅。实施电网脉冲需要先进的技术和基础设施。配备传感器和自动化系统的智能电网对于实时监测能量流动至关重要。这些系统可以快速响应能源需求或供应的变化，从而实现有效的电网脉冲所需的精确控制。此外，电池等能源存储解决方案在这一过程中也发挥着至关重要的作用。它们可以在生产高峰期存储多余的能量，并在需求高峰期间释放出来，促进电力分配的脉冲式调整。尽管有其优势，电网脉冲并非没有挑战。一个主要问题是由于电流流动的快速波动可能导致电气基础设施的磨损和撕裂。公用事业公司必须确保其设备能够承受这些变化，而不会造成损坏或导致停电。此外，监管框架需要发展以适应像电网脉冲这样的新技术和方法，确保它们安全有效地整合到现有系统中。展望未来，能源管理的未来可能会更加强调像电网脉冲这样的技术。当我们努力实现更可持续的能源格局时，增强效率和减少环境影响的创新将至关重要。通过接受像电网脉冲这样的策略，我们可以朝着更清洁、更具弹性的能源未来迈进。这种方法不仅解决了当前的能源挑战，而且为可再生能源的蓬勃发展和我们对非可再生资源的依赖减少奠定了基础。总之，理解和实施电网脉冲对于推动我们的能源系统和促进环境管理至关重要。