thermal power
简明释义
热功率
英英释义
Thermal power refers to the energy generated from heat, typically through the combustion of fossil fuels or nuclear reactions, to produce electricity. | 热能是指通过燃烧化石燃料或核反应产生的热量来发电的能量。 |
例句
1.The new plant will generate electricity using thermal power 热能 from natural gas.
新工厂将利用天然气产生电力,使用热能。
2.Geothermal thermal power 热能 is a sustainable energy source for many regions.
地热热能是许多地区可持续的能源来源。
3.Solar thermal power 热能 systems can convert sunlight into usable energy.
太阳能热能系统可以将阳光转化为可用能量。
4.Many countries are investing in thermal power 热能 to reduce dependence on coal.
许多国家正在投资于热能以减少对煤炭的依赖。
5.The efficiency of thermal power 热能 plants has improved significantly over the years.
多年来,热能发电厂的效率显著提高。
作文
In recent years, the demand for energy has grown significantly, prompting countries around the world to explore various sources of power generation. Among these, thermal power (热能发电) has emerged as a prominent method for producing electricity. Thermal power plants convert heat energy into electrical energy, primarily using fossil fuels such as coal, natural gas, and oil. This process involves burning the fuel to create steam, which then drives turbines connected to generators. One of the main advantages of thermal power (热能发电) is its ability to generate large amounts of electricity quickly. These plants can be built to meet the demands of growing populations and industries, making them a vital part of many countries' energy strategies. For instance, in nations like China and India, thermal power (热能发电) accounts for a significant portion of electricity generation, as it provides a reliable source of energy to support economic development.However, the reliance on thermal power (热能发电) raises environmental concerns. The combustion of fossil fuels releases greenhouse gases, particularly carbon dioxide (CO2), which contribute to climate change. Additionally, other harmful pollutants such as sulfur dioxide (SO2) and nitrogen oxides (NOx) are emitted, leading to air quality issues and health problems for nearby communities. As a result, many governments are now seeking to transition towards cleaner energy sources, such as solar, wind, and hydroelectric power.Despite these challenges, advancements in technology are helping to mitigate some of the environmental impacts associated with thermal power (热能发电). Innovations such as carbon capture and storage (CCS) aim to reduce CO2 emissions from power plants, allowing them to continue operating while minimizing their carbon footprint. Furthermore, modern thermal power (热能发电) plants are designed to be more efficient, using less fuel to produce the same amount of electricity.The future of thermal power (热能发电) is likely to involve a combination of traditional methods and new technologies. As the global community continues to address the urgent need for sustainable energy solutions, thermal power (热能发电) will play a critical role in the transition towards a more balanced energy mix. It is essential for policymakers to consider the implications of their energy choices and strive for a future where thermal power (热能发电) can coexist with renewable sources, ensuring energy security while protecting the environment.In conclusion, thermal power (热能发电) remains a key player in the global energy landscape. While it offers immediate benefits in terms of electricity generation, it also poses significant environmental challenges. By investing in cleaner technologies and integrating renewable energy sources, we can harness the advantages of thermal power (热能发电) while working towards a sustainable future. The journey to achieving this balance will require collaboration among governments, industries, and communities, but it is a necessary step in safeguarding our planet for future generations.
近年来,能源需求显著增长,促使世界各国探索各种发电来源。在这些来源中,热能发电 (thermal power) 已成为一种重要的电力生产方法。热电厂将热能转化为电能,主要使用煤、天然气和石油等化石燃料。这个过程涉及燃烧燃料以产生蒸汽,然后驱动与发电机连接的涡轮。热能发电 (thermal power) 的主要优势之一是能够快速生成大量电力。这些工厂可以根据不断增长的人口和工业需求进行建设,使其成为许多国家能源战略的重要组成部分。例如,在中国和印度等国,热能发电 (thermal power) 占电力生产的很大一部分,因为它为经济发展提供了可靠的能源来源。然而,依赖于 热能发电 (thermal power) 引发了环境问题。化石燃料的燃烧释放温室气体,尤其是二氧化碳(CO2),这会导致气候变化。此外,还会排放其他有害污染物,如二氧化硫(SO2)和氮氧化物(NOx),导致空气质量问题和附近社区的健康问题。因此,许多政府现在正在寻求向更清洁的能源来源过渡,如太阳能、风能和水电。尽管面临这些挑战,技术进步正在帮助减轻与 热能发电 (thermal power) 相关的一些环境影响。碳捕集与储存(CCS)等创新旨在减少电厂的CO2排放,使其能够持续运营,同时最小化其碳足迹。此外,现代 热能发电 (thermal power) 工厂被设计得更加高效,使用更少的燃料来生产相同数量的电力。热能发电 (thermal power) 的未来可能涉及传统方法和新技术的结合。随着全球社会继续应对可持续能源解决方案的紧迫需求,热能发电 (thermal power) 将在过渡到更平衡的能源组合中发挥关键作用。政策制定者必须考虑其能源选择的影响,并努力实现一个 热能发电 (thermal power) 能与可再生能源共存的未来,以确保能源安全,同时保护环境。总之,热能发电 (thermal power) 在全球能源格局中仍然是一个关键角色。虽然它在电力生成方面提供了直接的好处,但也带来了重大的环境挑战。通过投资清洁技术和整合可再生能源来源,我们可以利用 热能发电 (thermal power) 的优势,同时朝着可持续的未来迈进。实现这种平衡的旅程需要政府、行业和社区之间的合作,但这是保护我们星球以造福未来世代的必要步骤。
相关单词
