thermal power
简明释义
热功率
英英释义
Thermal power refers to the energy generated by converting heat energy into mechanical energy, typically through the combustion of fuels or nuclear reactions. | 热能指通过将热能转化为机械能而产生的能量,通常通过燃料的燃烧或核反应实现。 |
例句
1.Many countries are investing in thermal power 热能发电 plants to reduce their carbon footprint.
许多国家正在投资于
2.The government is planning to phase out old thermal power 热能发电 stations to combat pollution.
政府计划逐步淘汰旧的
3.Renewable energy sources are often compared to thermal power 热能发电 in terms of sustainability.
可再生能源通常与
4.The city relies heavily on thermal power 热能发电 to meet its electricity demands.
这座城市在很大程度上依赖于
5.The efficiency of thermal power 热能发电 generation has improved significantly over the years.
多年来,热能发电的效率显著提高。
作文
Thermal power is a crucial aspect of our modern energy landscape. It refers to the generation of electricity through the conversion of heat energy, typically derived from burning fossil fuels such as coal, oil, or natural gas. This process involves heating water in a boiler to produce steam, which then drives a turbine connected to an electricity generator. The efficiency and environmental impact of thermal power (热能发电) have been subjects of extensive research and debate in recent years.One of the primary advantages of thermal power (热能发电) is its ability to provide a stable and reliable source of energy. Unlike renewable sources such as solar or wind, which can be intermittent, thermal power (热能发电) plants can operate continuously, supplying electricity to meet constant demand. This reliability makes thermal power (热能发电) a backbone of many national grids around the world, especially in countries where renewable energy sources are still developing.However, the reliance on thermal power (热能发电) also comes with significant drawbacks. The combustion of fossil fuels releases large amounts of carbon dioxide and other greenhouse gases into the atmosphere, contributing to climate change. Additionally, thermal power (热能发电) plants require substantial amounts of water for cooling, which can strain local water resources, particularly in arid regions. As a result, there is a growing push for cleaner alternatives to thermal power (热能发电).In response to these environmental concerns, many countries are investing in technologies to improve the efficiency of thermal power (热能发电) plants and reduce their emissions. For example, carbon capture and storage (CCS) technology aims to capture carbon dioxide produced during the combustion process and store it underground, preventing it from entering the atmosphere. Additionally, advancements in combined cycle power plants, which utilize both gas and steam turbines, have significantly increased the efficiency of thermal power (热能发电) generation.Despite these innovations, the future of thermal power (热能发电) remains uncertain as the world shifts towards more sustainable energy solutions. Governments and businesses are increasingly recognizing the importance of transitioning to renewable energy sources such as wind, solar, and hydroelectric power. These alternatives not only help reduce greenhouse gas emissions but also offer the potential for energy independence and security.In conclusion, while thermal power (热能发电) has played a vital role in powering our societies, its environmental impacts cannot be ignored. As we move forward, it is essential to strike a balance between maintaining energy reliability and pursuing cleaner, more sustainable energy sources. The transition away from thermal power (热能发电) will require innovative solutions, political will, and public support, but it is a necessary step toward a healthier planet and a more sustainable future.
热能发电是我们现代能源格局中的一个关键方面。它指的是通过将热能转化为电力的过程,通常来源于燃烧煤、石油或天然气等化石燃料。这一过程涉及在锅炉中加热水以产生蒸汽,然后驱动与发电机连接的涡轮机。近年来,热能发电的效率和环境影响成为了广泛研究和讨论的主题。热能发电的一个主要优点是能够提供稳定可靠的能源来源。与太阳能或风能等可再生能源相比,后者可能会间歇性供应,热能发电厂可以持续运行,满足持续的电力需求。这种可靠性使得热能发电成为世界许多国家电网的支柱,尤其是在那些可再生能源仍在发展的国家。然而,对热能发电的依赖也带来了显著的缺点。燃烧化石燃料会释放大量二氧化碳和其他温室气体进入大气,助长气候变化。此外,热能发电厂需要大量水进行冷却,这可能会对当地水资源造成压力,特别是在干旱地区。因此,越来越多的人呼吁寻找更清洁的替代方案来取代热能发电。为了应对这些环境问题,许多国家正在投资于提高热能发电厂效率和减少排放的技术。例如,碳捕集与储存(CCS)技术旨在捕获燃烧过程中产生的二氧化碳并将其储存于地下,从而防止其进入大气。此外,联合循环发电厂的进步,利用燃气和蒸汽涡轮机,显著提高了热能发电的效率。尽管有这些创新,热能发电的未来仍然不确定,因为世界正在向更可持续的能源解决方案转型。各国政府和企业越来越意识到向风能、太阳能和水电等可再生能源转型的重要性。这些替代方案不仅有助于减少温室气体排放,还有可能实现能源独立和安全。总之,虽然热能发电在为我们的社会提供动力方面发挥了重要作用,但其环境影响不可忽视。随着我们向前发展,必须在维持能源可靠性和追求更清洁、更可持续的能源之间取得平衡。摆脱热能发电的转型将需要创新的解决方案、政治意愿和公众支持,但这是迈向更健康星球和更可持续未来的必要步骤。
相关单词
