intermittent source

简明释义

间歇源

英英释义

例句

1.The solar panels can serve as an intermittent source of energy, providing power only when the sun is shining.

太阳能电池板可以作为一个间歇性能源，仅在阳光照射时提供电力。

2.During the dry months, rivers can become an intermittent source of irrigation for farmers.

在干旱的月份，河流可能成为农民的一个间歇性灌溉水源。

3.Wind turbines are considered an intermittent source of electricity since wind speeds fluctuate.

风力涡轮机被认为是一个间歇性电源，因为风速会波动。

4.Rainwater harvesting systems often rely on an intermittent source of water during the rainy season.

雨水收集系统通常依赖于雨季的一个间歇性水源。

5.Geothermal energy can be an intermittent source depending on the geological conditions of the area.

地热能可能是一个间歇性能源，这取决于该地区的地质条件。

作文

In recent years, the world has witnessed a significant shift towards sustainable energy sources. Among these, renewable energy has gained considerable attention due to its potential to reduce carbon emissions and combat climate change. However, one of the challenges associated with renewable energy is that many of these sources are classified as an intermittent source, which means they do not produce energy consistently throughout the day or year. For instance, solar energy is abundant during sunny days but diminishes significantly during cloudy weather or at night. Similarly, wind energy is only generated when there is sufficient wind. This variability poses a challenge for energy grid management and requires innovative solutions to ensure a stable power supply.To address the issues posed by intermittent sources, energy storage technologies have become increasingly important. Batteries, for example, can store excess energy produced during peak generation times and release it when production is low. This capability allows for a more reliable energy supply, even when the primary energy sources are not actively generating power. Additionally, advancements in battery technology have led to longer-lasting and more efficient storage solutions, making them an integral part of the renewable energy landscape.Another approach to managing the effects of intermittent sources is the implementation of smart grid technology. Smart grids utilize digital communication tools to monitor and manage energy production and consumption in real-time. By integrating various energy sources and optimizing their usage, smart grids can help balance supply and demand effectively. This technology also enables better forecasting of energy production from intermittent sources, allowing grid operators to prepare for fluctuations and maintain stability.Moreover, diversifying the energy mix is a strategic way to mitigate the impacts of intermittent sources. By combining various types of renewable energy—such as solar, wind, hydroelectric, and geothermal—energy providers can create a more resilient system. For example, while solar energy may be less available during winter months, wind energy might be more abundant during that same period. This complementary relationship helps to smooth out the overall energy supply, reducing reliance on any single source.Public policy also plays a crucial role in supporting the integration of intermittent sources into the energy grid. Governments can incentivize research and development in energy storage technologies and smart grid solutions, as well as provide subsidies for renewable energy projects. By creating a favorable regulatory environment, policymakers can encourage investment in infrastructure that supports the use of intermittent sources.In conclusion, while intermittent sources present challenges to energy stability, they also offer opportunities for innovation and improvement in energy systems. Through advancements in storage technology, the adoption of smart grid solutions, diversification of energy sources, and supportive public policies, we can harness the potential of renewable energy while ensuring a reliable power supply. As we continue to prioritize sustainability, understanding and managing intermittent sources will be essential for creating a cleaner and more resilient energy future.

近年来，世界见证了可持续能源来源的重大转变。在这些能源中，可再生能源因其减少碳排放和应对气候变化的潜力而受到广泛关注。然而，与可再生能源相关的一个挑战是，许多这些来源被归类为间歇性来源，这意味着它们并不在全天或全年内持续产生能量。例如，太阳能在阳光明媚的日子里丰富，但在阴天或晚上显著减少。同样，风能仅在有足够风的时候产生。这种变化给能源电网管理带来了挑战，需要创新解决方案以确保稳定的电力供应。为了解决间歇性来源带来的问题，能源储存技术变得越来越重要。例如，电池可以在高峰发电时储存多余的能量，并在发电低迷时释放出来。这种能力使得即使在主要能源来源未积极发电时，也能提供更可靠的能源供应。此外，电池技术的进步导致更持久和更高效的储存解决方案，使其成为可再生能源领域的重要组成部分。另一种管理间歇性来源影响的方法是实施智能电网技术。智能电网利用数字通信工具实时监控和管理能量的生产和消费。通过整合各种能源来源并优化其使用，智能电网可以有效地帮助平衡供需。这项技术还使得更好地预测来自间歇性来源的能源生产成为可能，从而使电网运营商能够为波动做好准备并保持稳定。此外，多样化能源组合是缓解间歇性来源影响的战略方法。通过结合多种类型的可再生能源——如太阳能、风能、水电和地热能——能源供应商可以创建一个更具韧性的系统。例如，虽然太阳能在冬季可能较少，但在同一时期风能可能更为丰富。这种互补关系有助于平滑整体能源供应，减少对任何单一来源的依赖。公共政策在支持间歇性来源融入能源电网方面也发挥着至关重要的作用。各国政府可以激励能源储存技术和智能电网解决方案的研究与开发，并为可再生能源项目提供补贴。通过创造有利的监管环境，政策制定者可以鼓励对支持使用间歇性来源的基础设施进行投资。总之，尽管间歇性来源对能源稳定性构成挑战，但它们也为能源系统的创新和改进提供了机会。通过在储存技术、智能电网解决方案的采用、能源来源的多样化和支持性公共政策方面的进步，我们可以利用可再生能源的潜力，同时确保可靠的电力供应。随着我们继续优先考虑可持续性，理解和管理间歇性来源将是创造更清洁、更具韧性的能源未来的关键。