中国实现碳峰值与碳中和的策略与路径思考

IF 3.1 4区 工程技术 Q3 ENERGY & FUELS
Xiangwan Du
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引用次数: 1

摘要

首先,简要介绍了对“碳峰值与碳中和”目标的四种基本判断和理解。然后,深入阐述了实现“碳峰值和碳中和”目标的八大战略,包括节能和效率优先、能源安全、非化石能源替代、再电气化、资源回收、碳封存、数字化和国家间合作。接下来,详细论述了实现“碳调峰与碳中和”目标的八大实施路径,包括产业结构调整;构建清洁低碳、安全高效的能源体系,更新中国能源资源禀赋认识;加快构建新能源比重逐步提高的新型电力体系,实现高质量能源体系发展的“可能三角”;利用电气化和深度脱碳技术,促进工业部门碳排放有序达峰和逐步中和;推动交通运输工具低碳转型,实现交通运输行业碳峰值和碳中和;着力突破绿色建筑关键技术,实现建筑电、热零碳排放;为除碳实现碳中和提供强有力的技术支持;加快建设污染与碳减排一体化规划评估机制,建立健全战略、规划、政策和行动体系,优化碳交易体系。随后特别指出,“碳调峰与碳中和”目标的实现离不开科技创新的支持。最后,强调碳中和不是终点,而是一个重要的里程碑。如果从未来能源的角度来看,“碳调峰和碳中和”目标的意义和历史地位就更容易理解了。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thoughts on strategies and paths to achieve carbon peaking and carbon neutrality in China

First, a brief introduction is made to the four basic judgments and understandings of the goals of “carbon peaking and carbon neutrality.” Then, an in-depth elaboration is provided on the eight major strategies for achieving the goals of “carbon peaking and carbon neutrality,” including conservation and efficiency priority, energy security, non-fossil energy substitution, re-electrification, resource recycling, carbon sequestration, digitalization and cooperation between countries. Next, eight major implementation paths for achieving the goals of “carbon peaking and carbon neutrality” are discussed in detail, including industrial restructuring; building a clean, low-carbon, safe and efficient energy system, and renewing the understanding of China’s energy resource endowment; accelerating the construction of a new-type power system with a gradually growing proportion of new energy, and realizing the “possible triangle” of high-quality energy system development; utilizing electrification and deep decarbonization technologies to promote the orderly peaking and gradual neutralization of carbon emissions in the industrial sector; promoting the low-carbon transition of transportation vehicles to achieve carbon peaking and carbon neutrality in the transportation sector; focusing on breaking through key green building technologies to achieve zero carbon emissions from building electricity and heat; providing a strong technical support for carbon removal to achieve carbon neutrality; accelerating the construction of the integrated planning and assessment mechanism for pollution and carbon reduction, establishing a sound strategy, planning, policy and action system, and optimizing the carbon trading system. Afterwards, it is particularly pointed out that the realization of the goals of “carbon peaking and carbon neutrality” cannot be separated from the support of sci-tech innovation. Finally, it is stressed that carbon neutrality is not the end, but an important milestone. If viewed from the perspective of future energy, the significance and historical status of the goals of “carbon peaking and carbon neutrality” will be more understandable.

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来源期刊
Frontiers in Energy
Frontiers in Energy Energy-Energy Engineering and Power Technology
CiteScore
5.90
自引率
6.90%
发文量
708
期刊介绍: Frontiers in Energy, an interdisciplinary and peer-reviewed international journal launched in January 2007, seeks to provide a rapid and unique platform for reporting the most advanced research on energy technology and strategic thinking in order to promote timely communication between researchers, scientists, engineers, and policy makers in the field of energy. Frontiers in Energy aims to be a leading peer-reviewed platform and an authoritative source of information for analyses, reviews and evaluations in energy engineering and research, with a strong focus on energy analysis, energy modelling and prediction, integrated energy systems, energy conversion and conservation, energy planning and energy on economic and policy issues. Frontiers in Energy publishes state-of-the-art review articles, original research papers and short communications by individual researchers or research groups. It is strictly peer-reviewed and accepts only original submissions in English. The scope of the journal is broad and covers all latest focus in current energy research. High-quality papers are solicited in, but are not limited to the following areas: -Fundamental energy science -Energy technology, including energy generation, conversion, storage, renewables, transport, urban design and building efficiency -Energy and the environment, including pollution control, energy efficiency and climate change -Energy economics, strategy and policy -Emerging energy issue
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