base load

简明释义

基底负荷

英英释义

例句

1.Natural gas plants often provide the necessary base load 基础负荷 for many regions.

天然气发电厂通常为许多地区提供必要的基础负荷。

2.The power plant is designed to handle the base load 基础负荷 of electricity demand throughout the day.

这座发电厂的设计旨在满足全天的电力需求的基础负荷。

3.Renewable energy sources can supplement the base load 基础负荷, but cannot always meet it alone.

可再生能源可以补充基础负荷，但不能单独满足它。

4.During peak hours, we need to ensure that our base load 基础负荷 is maintained to avoid blackouts.

在高峰时段，我们需要确保维持我们的基础负荷以避免停电。

5.The grid operator must balance the base load 基础负荷 with intermittent sources like wind and solar.

电网运营商必须平衡基础负荷与风能和太阳能等间歇性来源。

作文

The concept of base load refers to the minimum level of demand on an electrical grid over a span of time. It is essential for energy producers to understand this term, as it helps them manage their resources effectively. In simple terms, base load is the continuous supply of electricity needed to meet the basic needs of consumers, regardless of fluctuations in demand throughout the day. For instance, during the night when most people are asleep, the overall electricity consumption tends to decrease. However, there is still a constant need for electricity to power essential services such as hospitals, streetlights, and refrigeration. This steady demand is what we refer to as base load. Power plants that provide this base load are typically designed to operate continuously and efficiently, ensuring that the grid remains stable and reliable.In many regions, traditional energy sources like coal and nuclear power plants have historically fulfilled the role of providing base load power. These plants can produce a significant amount of energy consistently, making them ideal for meeting the base load requirements. However, with the rise of renewable energy sources such as wind and solar, the dynamics of base load generation are changing.Renewable energy sources are often variable; for example, solar energy is only produced during the day and is affected by weather conditions. This variability poses challenges for maintaining a stable base load. To address this issue, many countries are investing in energy storage technologies, such as batteries, to store excess energy generated during peak production times and release it when demand increases. This innovation allows renewable sources to contribute to base load generation more effectively.Moreover, the integration of smart grid technologies is enhancing our ability to manage base load demands. Smart grids utilize advanced communication and automation technologies to monitor and control electricity flow, allowing for a more responsive approach to energy distribution. This means that energy providers can better predict when base load demand will peak and adjust their output accordingly.As we move towards a more sustainable energy future, understanding the concept of base load becomes increasingly important. Policymakers, engineers, and consumers alike must recognize the role that different energy sources play in meeting our energy needs. For example, while renewable energy sources are crucial for reducing carbon emissions, they must be complemented by reliable base load energy to ensure that the grid remains stable and that consumers have access to electricity at all times.In conclusion, the term base load encompasses a critical aspect of energy management that affects everyone. As we transition to cleaner energy sources and smarter grid technologies, finding the right balance between base load generation and renewable energy will be vital for achieving a sustainable energy future. By understanding and optimizing base load capabilities, we can ensure that our energy systems remain resilient and capable of meeting the demands of tomorrow.

“基础负荷”这一概念指的是在一段时间内电网的最低需求水平。能源生产者理解这个术语至关重要，因为它有助于他们有效管理资源。简单来说，基础负荷是满足消费者基本需求所需的持续电力供应，无论全天需求的波动如何。例如，在夜间，当大多数人都在睡觉时，整体电力消耗往往会减少。然而，仍然对电力有持续需求，以为医院、街灯和冷藏等基本服务供电。这种稳定的需求就是我们所称的“基础负荷”。提供这种基础负荷的发电厂通常设计为连续和高效地运行，以确保电网保持稳定和可靠。在许多地区，传统能源源如煤炭和核电厂历来承担着提供基础负荷电力的角色。这些发电厂能够持续产生大量能量，使其成为满足基础负荷要求的理想选择。然而，随着可再生能源如风能和太阳能的崛起，基础负荷发电的动态正在发生变化。可再生能源通常是可变的；例如，太阳能仅在白天生产，并受到天气条件的影响。这种可变性给维持稳定的基础负荷带来了挑战。为了解决这个问题，许多国家正在投资于能源存储技术，如电池，以在高峰生产时储存多余的能量，并在需求增加时释放。这项创新使得可再生能源在更有效地贡献基础负荷发电方面发挥了作用。此外，智能电网技术的整合增强了我们管理基础负荷需求的能力。智能电网利用先进的通信和自动化技术监控和控制电力流动，使电力分配更加灵活。这意味着能源供应商可以更好地预测基础负荷需求何时达到高峰，并相应调整其输出。随着我们向更可持续的能源未来迈进，理解基础负荷的概念变得越来越重要。政策制定者、工程师和消费者都必须认识到不同能源来源在满足我们能源需求中的作用。例如，尽管可再生能源对于减少碳排放至关重要，但必须辅以可靠的基础负荷能源，以确保电网保持稳定，并且消费者始终可以获得电力。总之，“基础负荷”这一术语涵盖了影响每个人的能源管理的重要方面。随着我们过渡到更清洁的能源来源和更智能的电网技术，找到基础负荷发电与可再生能源之间的正确平衡对于实现可持续能源未来至关重要。通过理解和优化基础负荷能力，我们可以确保我们的能源系统保持韧性，并能够满足未来的需求。