decarbonation

简明释义

英[di:,kɑ:bə'neiʃən]美[di:,kɑ:bə'neiʃən]

n. 脱二氧化碳

英英释义

单词用法

同义词

反义词

例句

1.It is well known that the particle size poses the main impact on the decarbonation rate. However the study in this respect is quite limited.

众所周知石灰石的粒度是影响热解速率的主要因素，但缺乏这方面的基础工作的仔细研究。

2.It is well known that the particle size poses the main impact on the decarbonation rate. However the study in this respect is quite limited.

众所周知石灰石的粒度是影响热解速率的主要因素，但缺乏这方面的基础工作的仔细研究。

3.Corporate strategies now often include plans for decarbonation 脱碳 to meet regulatory requirements.

企业战略现在通常包括decarbonation 脱碳的计划，以满足监管要求。

4.The government has set ambitious targets for decarbonation 脱碳 to combat climate change.

政府设定了雄心勃勃的目标，以实现decarbonation 脱碳，以应对气候变化。

5.Many industries are investing in technologies that facilitate decarbonation 脱碳 processes.

许多行业正在投资于促进decarbonation 脱碳过程的技术。

6.Renewable energy sources play a vital role in the decarbonation 脱碳 of the electricity grid.

可再生能源在电网的decarbonation 脱碳中发挥着至关重要的作用。

7.The decarbonation 脱碳 of transportation is crucial for reducing overall emissions.

交通运输的decarbonation 脱碳对减少整体排放至关重要。

作文

In recent years, the term decarbonation has gained significant attention as the world grapples with the urgent need to address climate change. Decarbonation refers to the process of reducing carbon dioxide (CO2) emissions produced by human activities, particularly in energy production and transportation. This concept is crucial for mitigating global warming and its associated impacts on our environment, economy, and health.The primary source of CO2 emissions comes from burning fossil fuels such as coal, oil, and natural gas. These fuels are used extensively in power generation, heating, and transportation. To achieve decarbonation, we must transition to cleaner energy sources, such as wind, solar, and hydropower, which produce little to no CO2 during operation. The shift towards renewable energy not only helps in reducing emissions but also promotes energy security and sustainability.Governments around the world are recognizing the importance of decarbonation and are implementing policies aimed at reducing their carbon footprints. For instance, many countries have set ambitious targets to achieve net-zero emissions by mid-century. This requires substantial investments in green technologies and infrastructure, as well as incentives for businesses and individuals to adopt sustainable practices.Moreover, decarbonation is not just about transitioning to renewable energy; it also involves improving energy efficiency across various sectors. By optimizing energy use in buildings, industries, and transportation, we can significantly reduce overall emissions. For example, retrofitting buildings with better insulation and energy-efficient appliances can lead to substantial reductions in energy consumption and emissions.In addition to technological advancements, public awareness and behavioral changes play a vital role in achieving decarbonation. Individuals can contribute by adopting more sustainable lifestyles, such as using public transport, cycling, or walking instead of driving, reducing meat consumption, and supporting local products. Collective action at the community level can drive significant change and influence policymakers to prioritize environmental sustainability.Another critical aspect of decarbonation is the role of carbon capture and storage (CCS) technologies. These innovations allow for the capture of CO2 emissions from industrial processes and power plants, preventing them from entering the atmosphere. By integrating CCS into existing infrastructure, we can make strides towards reducing overall emissions while still utilizing fossil fuels during the transition to cleaner alternatives.Finally, international cooperation is essential for effective decarbonation. Climate change is a global challenge that transcends borders, and collaborative efforts are necessary to share knowledge, resources, and technologies. Agreements like the Paris Accord aim to unite countries in their commitment to reducing greenhouse gas emissions and promoting sustainable development.In conclusion, decarbonation is a multifaceted approach to tackling climate change through the reduction of carbon emissions. It encompasses the transition to renewable energy, enhancing energy efficiency, individual behavioral changes, and the implementation of innovative technologies. As we move forward, it is imperative for governments, businesses, and individuals to work together to create a sustainable future for generations to come. The urgency of this mission cannot be overstated, as the health of our planet and the well-being of future populations depend on our actions today.

近年来，术语去碳化因全球迫切需要应对气候变化而受到广泛关注。去碳化是指减少人类活动产生的二氧化碳（CO2）排放的过程，特别是在能源生产和运输方面。这个概念对于减缓全球变暖及其对环境、经济和健康的影响至关重要。二氧化碳排放的主要来源是燃烧煤、石油和天然气等化石燃料。这些燃料在发电、供暖和运输中被广泛使用。为了实现去碳化，我们必须转向更清洁的能源来源，例如风能、太阳能和水能，这些能源在运行过程中几乎不产生二氧化碳。向可再生能源的转变不仅有助于减少排放，还促进了能源安全和可持续性。世界各国政府正在认识到去碳化的重要性，并实施旨在减少碳足迹的政策。例如，许多国家设定了到本世纪中叶实现净零排放的雄心勃勃的目标。这需要在绿色技术和基础设施方面进行大量投资，以及为企业和个人采用可持续实践提供激励。此外，去碳化不仅仅是转向可再生能源；它还涉及提高各个领域的能源效率。通过优化建筑、工业和交通的能源使用，我们可以显著减少整体排放。例如，对建筑进行更好的绝缘和安装节能设备，可以大幅减少能源消耗和排放。除了技术进步，公众意识和行为变化在实现去碳化中也起着至关重要的作用。个人可以通过采用更可持续的生活方式来做出贡献，例如使用公共交通、骑自行车或步行而不是开车、减少肉类消费和支持本地产品。社区层面的集体行动可以推动重大变革并影响决策者优先考虑环境可持续性。去碳化的另一个关键方面是碳捕集与储存（CCS）技术的作用。这些创新使得能够从工业过程和发电厂捕获二氧化碳排放，防止它们进入大气。通过将CCS整合到现有基础设施中，我们可以在向更清洁替代品过渡的同时，朝着减少整体排放的目标迈出重要步伐。最后，国际合作对于有效的去碳化至关重要。气候变化是一个超越国界的全球性挑战，合作努力对于共享知识、资源和技术是必要的。像巴黎协定这样的协议旨在团结各国共同承诺减少温室气体排放并促进可持续发展。总之，去碳化是通过减少碳排放来应对气候变化的多方面方法。它包括向可再生能源的转变、提高能源效率、个人行为变化以及创新技术的实施。随着我们向前推进，各国政府、企业和个人必须共同努力，为未来几代人创造一个可持续的未来。这个使命的紧迫性不容小觑，因为我们星球的健康和未来人口的福祉取决于我们今天的行动。