base load
简明释义
基本负载
英英释义
例句
1.Renewable energy sources can supplement the base load 基础负荷 but cannot always provide it consistently.
可再生能源可以补充基础负荷,但并不总是能够持续提供。
2.Nuclear plants are often used as a source of base load 基础负荷 energy due to their reliability.
由于其可靠性,核电站通常被用作基础负荷能源的来源。
3.During peak hours, additional power plants may be activated to handle the demand above the base load 基础负荷.
在高峰时段,可能会启动额外的发电厂以处理超出基础负荷的需求。
4.To ensure stability in the grid, it's essential to maintain a steady base load 基础负荷 supply.
为了确保电网的稳定,维持稳定的基础负荷供应至关重要。
5.The power plant operates at a constant level to meet the base load 基础负荷 requirements of the city.
这座发电厂以恒定的水平运行,以满足城市的基础负荷需求。
作文
In the context of energy production, the term base load refers to the minimum level of demand on an electrical grid over a span of time. It is crucial for energy providers to understand this concept as it helps them determine how much energy they need to produce consistently to meet the basic needs of consumers. The base load is typically provided by power plants that can generate electricity continuously, such as nuclear, coal, or hydroelectric plants. These facilities are designed to operate at a steady output, ensuring that there is always enough energy available to meet the constant demands of homes and businesses. The significance of base load generation cannot be overstated. Without a reliable source of base load, the electrical grid would struggle to maintain stability, leading to blackouts and disruptions. As renewable energy sources like wind and solar become more prevalent, the challenge of maintaining a stable base load increases. While these sources are valuable for reducing carbon emissions, their output can be intermittent and unpredictable. For instance, solar panels generate electricity only during daylight hours, and wind turbines depend on weather conditions. Therefore, energy companies must find ways to balance this variability with the need for consistent base load supply.To address these challenges, many countries are investing in energy storage technologies. Batteries, pumped hydro storage, and other forms of energy storage can help smooth out the fluctuations from renewable sources, allowing for a more stable base load. Additionally, advancements in smart grid technology enable better demand response strategies, where consumers can adjust their energy usage based on availability, further supporting the base load requirements.Moreover, the transition towards a more sustainable energy future requires a re-evaluation of what constitutes base load. Traditionally, fossil fuels have dominated this space, but with increasing environmental concerns, there is a push to redefine base load to include cleaner energy sources. For example, geothermal energy provides a consistent output similar to traditional base load sources but with a lower environmental impact.In conclusion, understanding the concept of base load is essential for anyone involved in energy production and consumption. As we move towards a greener future, the way we think about base load will evolve. Energy providers must innovate and adapt to ensure that they can meet the demands of a changing world while maintaining a reliable and stable energy supply. The integration of renewable energy sources, energy storage solutions, and smart technologies will play a pivotal role in shaping the future of base load generation, ultimately leading to a more sustainable and resilient energy system.
在能源生产的背景下,短语基荷指的是电网在一段时间内的最低需求水平。能源供应商理解这一概念至关重要,因为它帮助他们确定需要持续生产多少能量以满足消费者的基本需求。基荷通常由能够持续发电的发电厂提供,例如核电、煤电或水电厂。这些设施旨在以稳定的输出运行,确保始终有足够的能源可供家庭和企业使用。基荷发电的重要性不容小觑。如果没有可靠的基荷来源,电网将难以维持稳定,可能导致停电和中断。随着风能和太阳能等可再生能源的普及,维持稳定基荷的挑战也在增加。虽然这些能源在减少碳排放方面具有重要价值,但它们的输出可能是不稳定和不可预测的。例如,太阳能电池板仅在白天产生电力,而风力涡轮机则依赖于天气条件。因此,能源公司必须找到平衡这种波动与持续基荷供应需求的方法。为了解决这些挑战,许多国家正在投资于能源存储技术。电池、抽水蓄能和其他形式的能源存储可以帮助平滑可再生能源的波动,从而实现更稳定的基荷。此外,智能电网技术的进步使得更好的需求响应策略成为可能,消费者可以根据可用性调整他们的能源使用,从而进一步支持基荷的需求。此外,向更可持续能源未来的过渡需要重新评估什么构成基荷。传统上,化石燃料主导了这一领域,但随着环境问题的日益关注,人们开始推动重新定义基荷,以包括更清洁的能源来源。例如,地热能提供了与传统基荷来源类似的稳定输出,但对环境的影响较小。总之,理解基荷的概念对于任何参与能源生产和消费的人来说都是至关重要的。随着我们迈向更绿色的未来,我们对基荷的思考将会演变。能源供应商必须创新和适应,以确保他们能够满足不断变化的世界的需求,同时保持可靠和稳定的能源供应。可再生能源的整合、能源存储解决方案和智能技术将在塑造未来基荷发电中发挥关键作用,最终导致一个更可持续和更具韧性的能源系统。
