grid swing
简明释义
栅极电压摆动
英英释义
Grid swing refers to a phenomenon where fluctuations in electrical power supply occur within the grid system, often due to changes in demand or generation. | 电网摆动是指在电网系统中,由于需求或发电的变化而导致的电力供应波动现象。 |
例句
1.We need to analyze the grid swing 电网摆动 data to improve our energy management system.
我们需要分析<grid swing>电网摆动grid swing>数据,以改善我们的能源管理系统。
2.During the storm, the grid swing 电网摆动 caused several blackouts in the city.
在暴风雨期间,<grid swing>电网摆动grid swing>导致城市发生了几次停电。
3.A sudden grid swing 电网摆动 was detected, prompting an emergency response from the operators.
检测到突发的<grid swing>电网摆动grid swing>,促使操作员进行紧急响应。
4.The engineer explained how the grid swing 电网摆动 can affect the stability of power distribution.
工程师解释了如何<grid swing>电网摆动grid swing>会影响电力分配的稳定性。
5.The technician monitored the grid swing 电网摆动 to ensure the grid remained stable.
技术人员监测<grid swing>电网摆动grid swing>以确保电网保持稳定。
作文
In the world of renewable energy and sustainable practices, the term grid swing plays a significant role in understanding how power systems adapt to fluctuating energy demands. The concept of grid swing refers to the variations in electric power generation and distribution that occur when there is a sudden change in load or supply. These swings can be caused by various factors such as weather changes, increased consumption during peak hours, or the intermittent nature of renewable energy sources like wind and solar power.As we transition towards a more sustainable energy future, managing grid swing becomes crucial for maintaining the stability and reliability of the power grid. Traditional power plants have the ability to adjust their output quickly to meet demand, but with the rise of renewable energy, this task has become more complex. For instance, during sunny days, solar panels generate a significant amount of electricity; however, this production can drop suddenly if clouds pass overhead, leading to a grid swing that needs to be managed effectively.To mitigate the challenges posed by grid swing, energy storage solutions such as batteries are being increasingly implemented. These technologies allow excess energy produced during peak generation times to be stored and released when demand surges or production drops, thus smoothing out the fluctuations in the grid. Furthermore, advancements in smart grid technology enable real-time monitoring and management of energy flow, allowing grid operators to respond swiftly to any grid swing events.The integration of demand response programs also plays a pivotal role in addressing grid swing. These programs encourage consumers to reduce or shift their electricity usage during peak periods, thereby alleviating some of the pressure on the grid. By incentivizing users to adjust their consumption patterns, utilities can better manage the grid swing and ensure a more balanced energy supply.Moreover, the importance of policy and regulatory frameworks cannot be overlooked in the context of grid swing. Governments and regulatory bodies must create supportive environments that promote investment in new technologies and infrastructure improvements. This includes not only energy storage and smart grids but also the development of decentralized energy systems that can operate independently from the main grid, further reducing the impact of grid swing.In conclusion, as we move towards a more sustainable energy landscape, understanding and managing grid swing will be essential for ensuring a reliable and resilient power system. By leveraging innovative technologies, implementing demand response strategies, and fostering supportive policies, we can navigate the complexities of grid swing and pave the way for a cleaner, more efficient energy future. The journey may be challenging, but the potential rewards—both for our environment and our economy—are well worth the effort.
在可再生能源和可持续实践的世界中,术语grid swing在理解电力系统如何适应波动的能源需求方面起着重要作用。grid swing的概念指的是当负载或供应发生突然变化时,电力生成和分配的变化。这些波动可能由多种因素引起,例如天气变化、峰值时段的消费增加,或可再生能源(如风能和太阳能)的间歇性特征。随着我们向更可持续的能源未来过渡,管理grid swing对于维护电网的稳定性和可靠性变得至关重要。传统发电厂能够迅速调整其输出以满足需求,但随着可再生能源的兴起,这项任务变得更加复杂。例如,在阳光明媚的日子里,太阳能电池板产生大量电力;然而,如果云层突然遮挡,这种生产可能会迅速下降,导致需要有效管理的grid swing。为了减轻grid swing带来的挑战,越来越多地实施了能源储存解决方案,如电池。这些技术允许在高峰发电期间产生的多余能源被储存,并在需求激增或生产下降时释放,从而平滑电网中的波动。此外,智能电网技术的进步使实时监控和管理能源流成为可能,使电网运营商能够迅速响应任何grid swing事件。需求响应计划的整合在应对grid swing方面也发挥着关键作用。这些程序鼓励消费者在高峰期减少或转移用电,从而减轻电网的一些压力。通过激励用户调整其消费模式,公用事业公司可以更好地管理grid swing,确保能源供应更加平衡。此外,在grid swing的背景下,政策和监管框架的重要性也不容忽视。政府和监管机构必须创建支持性的环境,以促进对新技术和基础设施改进的投资。这不仅包括能源储存和智能电网,还包括开发能够独立于主电网运行的分散能源系统,从而进一步减少grid swing的影响。总之,随着我们迈向更可持续的能源格局,理解和管理grid swing将对确保可靠和有韧性的电力系统至关重要。通过利用创新技术、实施需求响应策略和促进支持性政策,我们可以驾驭grid swing的复杂性,为更清洁、更高效的能源未来铺平道路。这条旅程可能充满挑战,但潜在的回报——无论是对我们的环境还是经济——都值得付出努力。
相关单词
