Bulletin of Chinese Academy of Sciences (Chinese Version)
Keywords
carbon peaking, carbon neutrality, oil and gas security, relationship, pathway, strategy
Document Type
Study on China's Energy Development Strategy
Abstract
A century of changes combined with the COVID-19 pandemic has sounded the alarm on energy security around the world. How to deeply understand the relationship between energy transition and energy security, and how to explore the path of China's energy security and the carbon peaking and carbon neutrality (abbreviated as "dual carbon") strategy have become a major problem. Based on detailed analyses of China's energy consumption predictions and dual carbon strategy requirements, this study proposes:(1) Energy security is the foundation of energy transition. The oil and gas shortage situation in China may persist for a long time. The "dual carbon" goal does not conflict with hydrocarbon security strategy. (2) China's hydrocarbon security needs to be considered at two levels. The deployment needs to be made in the near-, medium- and long-term. First, it is necessary to continue exploring traditional oil and gas resources, including land and sea, conventional and unconventional resources. The second is to actively explore at new areas of oil and gas resources, and focus on organizing the "three revolutions" of in-situ conversion of medium-low mature shale oil, thermal conversion and utilization of oil-rich coal and underground coal gasification to prepare for large-scale increase of oil and gas production. (3) The "dual carbon" strategy is an extensive and profound system revolution. The withdrawal of fossil energy must be based on energy security. The clean use of fossil energy, the increased use of renewable energy, the construction of flexible smart grids, the construction of energy storage infrastructure and the improvement of efficiency in energy utilization, must be paid close attention to simultaneously. On the basis of ensuring energy security, the goal of "carbon neutrality" can be achieved through multiple ways relying on technological progress.
First page
1
Last Page
10
Language
Chinese
Publisher
Bulletin of Chinese Academy of Sciences
References
1 毕洪业. ""战略三角""还是""三边互动"":新时代的中美俄关系. 国际观察, 2022, (3):127-156.
Bi H Y. ""Strategic Triangle"" or ""Trilateral Interaction"":Defining China-US-Russia relations in the new era. International Review, 2022, (3):127-156. (in Chinese)
2 郝宇. 欧洲能源危机的根源与影响. 人民论坛, 2022, (7):102-105.
Hao Y. The origin and impact of the European energy crisis. Renming Tribune, 2022, (7):102-105. (in Chinese)
3 International Energy Agency. An Energy Sector Roadmap to Carbon Neutrality in China. (2021-09-01)[2022-12-19]. https://www.iea.org/reports/an-energy-sector-roadmap-tocarbon-neutrality-in-china.
4 Det Norske Veritas. Energy Transition Outlook 2021:A Global and Regional Forecast to 2050.
Oslo:Det Norske Veritas, 2021.
5 清华大学气候变化与可持续发展研究院. 中国低碳发展战略与转型路径研究. 北京:清华大学, 2020.
Institute of Climate Change and Sustainable Development, Tsinghua University. Research on China's Low-carbon Development Strategy and Transition Path. Beijing:Tsinghua University, 2020. (in Chinese)
6 国网能源研究院有限公司. 中国能源电力发展展望2020. 北京:中国电力出版社, 2020.
State Grid Energy Research Institute Co., Ltd. China Energy and Electricity Outlook 2020.
Beijing:China Electric Power Press, 2020. (in Chinese)
7 全球能源互联网发展合作组织. 中国2060年前碳中和研究报告. 北京:全球能源互联网发展合作组织, 2021.
Global Energy Interconnection Development and Cooperation Organization. Research of Carbon Neutrality in China by 2060.
Beijing:Global Energy Interconnection Development and Cooperation Organization, 2021. (in Chinese)
8 中国石油经济技术研究院. 2050年世界与中国能源展望. 北京:中国石油经济技术研究院, 2020.
CNPC Economics and Technology Research Institute. 2050 Energy Outlook of the World and China (2020 edition). Beijing:CNPC Economics and Technology Research Institute, 2020. (in Chinese)
9 刘合, 梁坤,张国生, 等. 碳达峰、碳中和约束下我国天然气发展策略研究. 中国工程科学, 2021, 23(6):33-42.
Liu H, Liang K, Zhang G S, et al. China's natural gas development strategy under the constrains of carbon peak and carbon neutrality. Strategic Study of CAE, 2021, 23(6):33-42. (in Chinese)
10 李建忠, 梁坤, 武娜, 等. 常规油气勘探程度分析新方法及其应用. 石油科技论坛, 2020, 39(6):45-53.
Li J Z, Liang K, Wu N, et al. New method for conventional hydrocarbon exploration stage division and its application. Petroleum Science and Technology Forum, 2020, 39(6):45-53. (in Chinese)
11 赵文智, 胡素云, 侯连华. 页岩油地下原位转化的内涵与战略地位. 石油勘探与开发, 2018, 45(4):537-545.
Zhao W Z, Hu S Y, Hou L H. Connotation and strategic role of in-situ conversion processing of shale oil underground in the onshore China. Petroleum Exploration and Development, 2018, 45(4):537-545. (in Chinese)
12 王双明, 王虹, 任世华, 等. 西部地区富油煤开发利用潜力分析和技术体系构想. 中国工程科学, 2022, 24(3):49-57.
Wang S M, Wang H, Ren S H, et al. Potential analysis and technical conception of exploitation and utilization of tar-rich coal in Western China. Strategic Study of CAE, 2022, 24(3):49-57. (in Chinese)
13 王双明, 师庆民, 王生全, 等. 富油煤的油气资源属性与绿色低碳开发. 煤炭学报, 2021, 46(5):1365-1377.
Wang S M, Shi Q M, Wang S Q, et al. Resource property and exploitation concepts with green and low-carbon of tar-rich coal as coal-based oil and gas. Journal of China Coal Society, 2021, 46(5):1365-1377. (in Chinese)
14 葛世荣. 深部煤炭化学开采技术. 中国矿业大学学报, 2017, 46(4):679-691.
Ge S R. Chemical mining technology for deep coal resources. Journal of China University of Mining & Technology, 2017, 46(4):679-691. (in Chinese)
15 孔令峰, 朱兴珊, 展恩强, 等. 深层煤炭地下气化技术与中国天然气自给能力分析. 国际石油经济, 2018, 26(6):85-94.
Kong L F, Zhu X S, Zhan E Q, et al. Suggestions on China's natural gas self-sufficiency by deep coal underground gasification technology. International Petroleum Economics, 2018, 26(6):85-94. (in Chinese)
16 高虎. ""双碳""目标下中国能源转型路径思考. 国际石油经济, 2021, 29(3):1-6.
Gao H. China's energy transformation under the targets of peaking carbon emissions and carbon neutral. International Petroleum Economics, 2021, 29(3):1-6. (in Chinese)
17 侯梅芳, 潘松圻, 刘翰林. 世界能源转型大势与中国油气可持续发展战略. 天然气工业, 2021, 41(12):9-16.
Hou M F, Pan S Q, Liu H L. World energy trend and China's oil and gas sustainable development strategies. Natural Gas Industry, 2021, 41(12):9-16. (in Chinese)
18 曾鸣, 王永利, 张硕, 等. ""十四五""能源规划与"" 30·60"" 双碳目标实现过程中的12个关键问题. 中国电力企业管理, 2021, (1):41-43.
Zeng M, Wang Y L, Zhang S, et al. 12 key issues in the ""14th Five-Year"" energy plan and the realization of the ""30·60"" dual carbon goal. China Power Enterprise Management, 2021, (1):41-43. (in Chinese)
19 邹才能, 薛华庆, 熊波, 等. ""碳中和""的内涵、创新与愿景. 天然气工业, 2021, 41(8):46-57.
Zou C N, Xue H Q, Xiong B, et al. Connotation, innovation and vision of ""carbon neutral"". Natural Gas Industry, 2021, 41(8):46-57. (in Chinese)
20 孙海萍, 张胜军, 徐立昊, 等. ""双碳""目标下中国油气行业低碳发展措施与路径探讨. 油气与新能源, 2021, 33(6):27-31.
Sun H P, Zhang S J, Xu L H, et al. Discussion on lowcarbon development measures and paths of China's oil and gas industry under the goals of ""Dual Carbon"". Petroleum Planning & Engineering, 2021,33(6):27-31. (in Chinese)"
Recommended Citation
ZHAO, Wenzhi; LIANG, Kun; WANG, Kun; LIN, Shiguo; and LI, Zhixin
(2023)
"Hydrocarbon Security Strategy and Carbon Peak and Carbon Neutral Strategy: Relationship and Path,"
Bulletin of Chinese Academy of Sciences (Chinese Version): Vol. 38
:
Iss.
1
, Article 1.
DOI: https://doi.org/10.16418/j.issn.1000-3045.20220903001
Available at:
https://bulletinofcas.researchcommons.org/journal/vol38/iss1/1
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