adaptive grid

简明释义

1. 适应网; 2. 适应性网格;

英英释义

例句

1.The architecture firm implemented an adaptive grid for better space utilization in the building design.

该建筑公司在建筑设计中实施了自适应网格以更好地利用空间。

2.Using an adaptive grid in mobile applications ensures a seamless user experience across devices.

在移动应用中使用自适应网格确保在不同设备上提供无缝的用户体验。

3.The adaptive grid system allows for dynamic content placement based on user interaction.

该自适应网格系统允许根据用户交互动态放置内容。

4.The software uses an adaptive grid to optimize the layout for different screen sizes.

该软件使用自适应网格来优化不同屏幕尺寸的布局。

5.In web design, an adaptive grid can help create a responsive interface that adjusts to user preferences.

在网页设计中，自适应网格可以帮助创建一个响应式界面，根据用户偏好进行调整。

作文

In recent years, the concept of an adaptive grid has gained significant attention in various fields, particularly in energy management and smart grid technology. An adaptive grid refers to a dynamic and flexible network that can adjust its operations based on real-time data and changing conditions. This innovative approach is essential for optimizing energy distribution, improving efficiency, and accommodating the increasing demand for renewable energy sources.One of the primary benefits of an adaptive grid is its ability to integrate diverse energy sources seamlessly. Traditional power grids are often rigid and unable to accommodate the fluctuations associated with renewable energy generation, such as solar and wind power. However, with an adaptive grid, energy providers can harness these variable resources more effectively. For instance, during peak sunlight hours, excess solar energy can be stored or redirected to meet demand, ensuring a stable supply. This adaptability not only enhances reliability but also promotes sustainability by reducing reliance on fossil fuels.Moreover, an adaptive grid enhances the resilience of the energy infrastructure. Natural disasters, equipment failures, or sudden spikes in demand can disrupt traditional grids, leading to outages and inefficiencies. In contrast, an adaptive grid can quickly identify and respond to these challenges. Through advanced monitoring systems and automated controls, the grid can reroute power, isolate problems, and maintain service continuity. This resilience is crucial in today’s world, where climate change and extreme weather events are becoming increasingly common.The implementation of an adaptive grid also empowers consumers. With the advent of smart meters and home energy management systems, individuals can monitor their energy usage in real-time and make informed decisions about their consumption. This level of transparency encourages energy conservation and allows consumers to participate actively in energy markets. For example, during periods of high demand, users can reduce their consumption or sell excess energy back to the grid, creating a more collaborative energy ecosystem.Furthermore, the economic implications of an adaptive grid are profound. By optimizing energy distribution and reducing waste, utilities can lower operational costs and pass those savings on to consumers. Additionally, the increased efficiency of an adaptive grid can lead to lower greenhouse gas emissions, contributing to global efforts to combat climate change. As governments and organizations strive to meet sustainability goals, the adoption of adaptive grids will play a pivotal role in shaping the future of energy.In conclusion, the concept of an adaptive grid represents a transformative shift in how we approach energy management. Its ability to integrate renewable sources, enhance resilience, empower consumers, and drive economic benefits makes it a critical component of modern energy systems. As we continue to face the challenges of climate change and energy demand, embracing the principles of an adaptive grid will be essential for building a sustainable and efficient energy future.

近年来，“自适应电网”的概念在多个领域，尤其是能源管理和智能电网技术方面，受到了广泛关注。“自适应电网”指的是一种动态灵活的网络，能够根据实时数据和变化的条件调整其操作。这种创新的方法对于优化能源分配、提高效率以及满足对可再生能源日益增长的需求至关重要。“自适应电网”的主要好处之一是其能够无缝整合多种能源来源。传统电网往往较为僵化，无法适应与可再生能源发电（如太阳能和风能）相关的波动。然而，通过“自适应电网”，能源供应商可以更有效地利用这些可变资源。例如，在阳光充足的高峰时段，过剩的太阳能可以被储存或重新引导以满足需求，从而确保稳定的供应。这种适应性不仅增强了可靠性，还通过减少对化石燃料的依赖促进了可持续发展。此外，“自适应电网”增强了能源基础设施的韧性。自然灾害、设备故障或突然的需求激增可能会扰乱传统电网，导致停电和低效。而“自适应电网”则能够快速识别并应对这些挑战。通过先进的监测系统和自动控制，电网可以重新分配电力、隔离问题并保持服务连续性。在当今世界，气候变化和极端天气事件日益频繁，这种韧性显得尤为重要。“自适应电网”的实施也赋予了消费者更多权力。随着智能电表和家庭能源管理系统的出现，个人可以实时监控自己的能源使用情况，并做出明智的消费决策。这种透明度鼓励了节能，并使消费者能够积极参与能源市场。例如，在需求高峰期间，用户可以减少消费或将多余的能源回售给电网，从而创造出一个更具协作性的能源生态系统。此外，“自适应电网”的经济影响深远。通过优化能源分配和减少浪费，公用事业公司可以降低运营成本，并将这些节省转嫁给消费者。此外，“自适应电网”的效率提升可以降低温室气体排放，为全球抗击气候变化的努力做出贡献。随着各国政府和组织努力实现可持续发展目标，采用“自适应电网”将在塑造未来能源方面发挥重要作用。总之，“自适应电网”的概念代表了我们在能源管理方式上发生的变革性转变。它整合可再生能源、增强韧性、赋权消费者以及推动经济利益的能力，使其成为现代能源系统的关键组成部分。随着我们继续面临气候变化和能源需求的挑战，拥抱“自适应电网”的原则对于建设一个可持续和高效的能源未来至关重要。