grid scale

简明释义

制图坐标比例尺

英英释义

例句

1.The latest research focuses on enhancing grid scale 电网规模 energy efficiency.

最新的研究集中在提高电网规模 grid scale 能源效率上。

2.The new solar farm operates at a grid scale 电网规模 to provide renewable energy to thousands of homes.

这个新的太阳能农场以电网规模 grid scale 运行，为数千个家庭提供可再生能源。

3.Investing in grid scale 电网规模 battery storage can help stabilize the energy supply during peak demand.

投资于电网规模 grid scale 电池储存可以帮助在高峰需求期间稳定能源供应。

4.Developing grid scale 电网规模 geothermal plants can contribute significantly to sustainable energy goals.

开发电网规模 grid scale 地热电厂可以显著促进可持续能源目标。

5.Many countries are transitioning to grid scale 电网规模 wind farms to reduce carbon emissions.

许多国家正在转向电网规模 grid scale 风电场，以减少碳排放。

作文

In recent years, the term grid scale has become increasingly relevant in discussions about energy production and distribution. The concept refers to the size and capacity of energy systems that are connected to the electrical grid, allowing for the efficient transmission and distribution of electricity across vast distances. As the world moves towards a more sustainable future, understanding grid scale energy solutions is essential for addressing the challenges posed by climate change and the growing demand for renewable energy sources.One of the primary advantages of grid scale energy systems is their ability to harness renewable resources such as solar, wind, and hydroelectric power on a large scale. These systems can generate significant amounts of electricity, which can then be fed into the grid to supply power to thousands of homes and businesses. For instance, large solar farms or wind farms can produce energy that not only meets local demand but can also be transmitted over long distances to areas where energy is needed most.Moreover, grid scale projects often benefit from economies of scale. This means that as the size of the project increases, the cost per unit of energy produced typically decreases. This makes renewable energy sources more competitive with traditional fossil fuels, helping to drive down overall energy costs. Governments and private investors are increasingly recognizing the potential of grid scale projects, leading to a surge in investment and development in this sector.However, the transition to grid scale renewable energy systems is not without its challenges. One major issue is the variability of renewable energy sources. For example, solar power generation is dependent on sunlight, while wind energy relies on wind conditions. This intermittency can create difficulties in maintaining a stable energy supply. To address this, energy storage technologies, such as batteries, are being developed and deployed to store excess energy generated during peak production times for use during periods of low generation.Additionally, integrating grid scale renewable energy into existing energy infrastructure requires careful planning and investment. Upgrading the grid to handle increased loads and ensure reliability is crucial for the successful implementation of these projects. Smart grid technology, which utilizes digital communication tools to monitor and manage energy flow, plays a vital role in facilitating this integration.In conclusion, the concept of grid scale energy solutions is pivotal in the transition towards a sustainable energy future. By leveraging large-scale renewable energy projects, we can reduce our reliance on fossil fuels, lower energy costs, and mitigate the impacts of climate change. While challenges remain, the continued investment in and development of grid scale technologies will be essential in creating a resilient and sustainable energy system for generations to come.

近年来，短语grid scale在关于能源生产和分配的讨论中变得越来越相关。这个概念指的是与电网连接的能源系统的规模和容量，允许在广泛的距离内高效地传输和分配电力。随着世界朝着更可持续的未来发展，理解grid scale能源解决方案对于应对气候变化带来的挑战和日益增长的可再生能源需求至关重要。grid scale能源系统的主要优势之一是能够大规模利用太阳能、风能和水电等可再生资源。这些系统可以产生大量电力，然后将其送入电网，为成千上万的家庭和企业提供电力。例如，大型太阳能发电厂或风电场可以生产不仅满足当地需求的能源，还可以通过长途输送到最需要能源的地区。此外，grid scale项目通常受益于规模经济。这意味着随着项目规模的增加，每单位能源生产的成本通常会下降。这使得可再生能源资源在与传统化石燃料竞争时更加具有竞争力，有助于降低整体能源成本。各国政府和私人投资者越来越认识到grid scale项目的潜力，导致该领域的投资和开发激增。然而，向grid scale可再生能源系统的过渡并非没有挑战。其中一个主要问题是可再生能源资源的可变性。例如，太阳能发电依赖于阳光，而风能则依赖于风的条件。这种间歇性可能会在维持稳定的能源供应方面造成困难。为了解决这个问题，能源存储技术（如电池）正在被开发和部署，以在高峰生产期间储存多余的能源，以便在低发电期间使用。此外，将grid scale可再生能源整合到现有能源基础设施中需要仔细的规划和投资。升级电网以处理增加的负荷并确保可靠性对于这些项目的成功实施至关重要。智能电网技术利用数字通信工具监控和管理能源流动，在促进这种整合方面发挥着重要作用。总之，grid scale能源解决方案的概念在向可持续能源未来的过渡中至关重要。通过利用大规模的可再生能源项目，我们可以减少对化石燃料的依赖，降低能源成本，并减轻气候变化的影响。尽管仍然存在挑战，但对grid scale技术的持续投资和发展对于为未来几代人创造一个具有弹性和可持续的能源系统至关重要。