-
摘要: 关键矿产目录是各国制定国家资源安全战略和全球资源竞争策略的基础。我国是全球最大资源消费国、生产国和贸易国, 满足新时期自然资源综合管理、确保我国能源资源安全, 亟待建立一份符合中国国情和新时期国际形势的中国战略性关键矿产目录。本文根据我国所处发展阶段以及矿产资源的储量、生产、消费和贸易特征, 提出了“战略性关键矿产”的概念, 将其定义为对国家经济和国防安全至关重要、同时或者存在较大供应风险、或者对全球具有较强控制力、或对战略新兴产业发展不可或缺的矿产资源, 并据此构建了定量为主结合定性分析的评价筛选模型, 筛选出了包括21 种短缺矿产和10 种优势矿产在内的31 种战略性关键矿产, 建立了我国的战略性关键矿产目录。Abstract: The list of critical minerals forms the basis for countries to formulate national mineral resource security strategies and global mineral resources competition strategies. China is the largest mineral resource consumer, producer, and trading country in the world. To meet the requirements of integrated mineral resources management in the new era and ensure the security of China’s mineral resources, it is necessary to establish a list of China’s strategic and critical minerals in line with the country’s national conditions and the international situation in the new era. According to the development stage of our country and the characteristics of mineral reserves, production, consumption, and trade of mineral resources, this study proposes the concept of “strategic and critical minerals”, which is defined as mineral resources that are critical to national economy, defense, and security, or have greater supply risks, strong control over the world, or are indispensable to the development of strategic emerging industries. Accordingly, an assessment and screening model combining quantitative analysis with qualitative analysis was constructed, and 31 strategic and critical minerals, namely 21 shortage minerals and 10 dominant minerals, were screened, and a list of strategic and critical minerals in China was established.
-
Key words:
- strategic and critical minerals /
- assessment method /
- list
-
-
陈毓川. 2002. 建立我国战略性矿产资源储备制度和体系[J]. 国土资源, (1): 20-21, 5.
翟明国, 胡波. 2021. 矿产资源国家安全、国际争夺与国家战略之思考[J]. 地球科学与环境学报, 43(1): 1-11.
翟明国, 吴福元, 胡瑞忠, 蒋少涌, 李文昌, 王汝成, 王登红, 齐涛, 秦克章, 温汉捷. 2019. 战略性关键金属矿产资源: 现状与问题[J]. 中国科学基金, 33(2): 106-111.
郭娟, 闫卫东, 徐曙光, 崔荣国, 胡容波, 林博磊, 周起忠, 周舟, 杨玲. 2021. 中国关键矿产评价标准和清单的探讨[J]. 地球学报, 42(2): 151-158.
胡存智.2009. 全国矿产资源规划研究[M]. 北京: 地质出版社.
姜雅, 王婷, 龙涛. 2021. 关于将重晶石列为战略性矿产的原则分析[J]. 地球学报, 42(2): 297-302.
李建武, 李天骄, 周艳晶, 李颖, 马哲, 李芳琴. 2018. 新时代中国战略性关键矿产目录厘定[R]. 北京: 中国地质科学院全球矿产资源战略研究中心.
李宪海, 王丹, 吴尚昆. 2014. 我国战略性矿产资源评价指标选择: 基于美国、欧盟等关键矿产名录的思考[J]. 中国矿业, 23(4): 30-33.
刘文浩, 刘学, 郑军卫. 2021. 基于文献计量的国际关键矿产资源研究态势评估[J]. 矿产综合利用, (5): 59-66, 58.
齐亚彬. 2002. 中国矿产资源储备问题研究[J]. 资源与产业, (6): 53-54.
全球矿产资源战略研究中心. 2006. 矿产资源储备战略研究[R]. 北京: 中国地质科学院全球矿产资源战略研究中心.
全球矿产资源战略研究中心. 2016. 国家物资储备中长期储备品种、规模研究[R]. 北京: 中国地质科学院全球矿产资源战略研究中心.
唐金荣, 杨宗喜, 周平, 施俊法. 2014. 国外关键矿产战略研究进展及其启示[J]. 地质通报, 33(9): 1445-1453.
汪灵. 2019. 战略性非金属矿产的思考[J]. 矿产保护与利用, 39(6): 1-7.
王安建, 王高尚, 邓祥征, 周凤英, 安海忠, 钟维琼, 李华姣, 刘刚, 马哲, 胡东滨, 成金华, 闫强, 代涛, 钟美瑞, 王小林. 2019. 新时代中国战略性关键矿产资源安全与管理[J]. 中国科学基金, 33(2): 133-140.
王安建, 袁小晶. 2022. 大国竞争背景下的中国战略性关键矿产资源安全思考[J]. 中国科学院院刊, 37(11): 1550-1559.
王春连, 王九一, 游超, 余小灿, 刘殿鹤, 颜开, 刘思晗, 薛燕, 刘延亭, 刘雪, 尹传凯. 2022. 战略性非金属矿产厘定、关键应用和供需形势研究[J]. 地球学报, 43(3): 267-278.
王登红. 2019. 关键矿产的研究意义、矿种厘定、资源属性、找矿进展、存在问题及主攻方向[J]. 地质学报, 93(6): 1189-1209.
王晓东. 2005. 战略性矿产资源储备规模及其管理研究[D]. 长沙: 中南大学.
文博杰, 陈毓川, 王高尚, 代涛. 2019. 2035 年中国能源与矿产资源需求展望[J]. 中国工程科学, 21(1): 68-73.
张新安, 张迎新. 2011. 把“三稀”金属等高技术矿产的开发利用提高到战略高度[J]. 国土资源情报, (6): 2-7.
BGS (British Geological Survey). 2011. British Geological Survey risk list 2011[R]. Nottingham: British Geological Survey.
BGS (British Geological Survey). 2012. British Geological Survey risk list 2012[R]. Nottingham: British Geological Survey.
BGS (British Geological Survey). 2015. British Geological Survey risk list 2015[R]. Swinton: National Environmental Research Council.
CALVO G, VALERO A, VALERO A. 2017. Thermodynamic approach to evaluate the criticality of raw materials and its application through a material flow analysis in Europe[J]. Journal of Industrial Ecology, 22: 839-852.
CHEN Yu-chuan. 2002. To establish a reserve system of strategic mineral resources in China[J]. Land & Resources, (1): 20-21, 5(in Chinese with English abstract).
DISER. 2022. 2022 critical minerals strategy[EB/OL]. [2022-09-25]. https://www.industry.gov.au/sites/default/files/ 2022-09/2022-critical-minerals-strategy_0.pdf.
EC (European Commission). 2008. The raw materials initiative-meting our critical needs for growth and jobs in Europe[R]. Brussels: European Commission.
EC (European Commission). 2010. Critical raw materials for the EU: Report of the Ad-hoc working group on defining critical raw materials[R]. Brussels: European Commission.
EC (European Commission). 2011. Communication from the commission to the European parliament, the council, the European economic and social committee and the committee of the regions tackling the challenges in commodity markets and on raw materials[R]. Brussels: European Commission.
EC (European Commission). 2014. Communication from the commission to the European parliament, the council, the European economic and social committee and the committee of the regions on the review of the list of critical raw materials for the EU and the implementation of the raw materials initiative[R]. Brussels: European Commission.
EC (European Commission). 2017. Communication from the commission to the European parliament, the council, the European economic and social committee and the committee of the regions on the 2017 list of critical raw materials for the EU[J]. Brussels: European Commission.
EC (European Commission). 2020. Communication from the commission to the European parliament, the council, the European economic and social committee and the committee of the regions on the critical raw materials resilience: Charting a path towards greater security and sustainability[R]. Brussels: European Commission.
GALOS K, LEWICKA E, BURKOWICZ A, GUZIK K, KOT-NIEWIADOMSKA A, KAMYK J, SZLUGAJ J. 2021. Approach to identification and classification of the key, strategic and critical minerals important for the mineral security of Poland[J]. Resources Policy, 70: 101900.
GRAEDEL T E, BARR R, CHANDLER C, CHASE T, CHOI J, CHRISTOFFERSEN L, FRIEDLANDER E, HENLY C, JUN C, NASSAR N T, SCHECHNER D, WARREN S, YANG Man-yu, ZHU C. 2012. Methodology of metal criticality determination[J]. Environmental Science & Technology, 46: 1063-1070.
GRAEDEL T E, HARPER E M, NASSAR N T, NUSS P, RECK B K. 2015. Criticality of metals and metalloids[J]. Proceedings of the National Academy of Sciences, 112(14): 4257-4262.
GULLEY A L, NASSAR N T, XUN S. 2018. China, the United States, and competition for resources that enable emerging technologies[J]. Proceedings of the National Academy of Sciences, 115(16): 4111-4115.
GUO Juan, YAN Wei-dong, XU Shu-guang, CUI Rong-guo, HU Rong-bo, LIN Bo-lei, ZHOU Qi-zhong, ZHOU Zhou, YANG Ling. 2021. A discussion on evaluation criteria and list of critical minerals in China[J]. Acta Geoscientica Sinica, 42(2): 151-158(in Chinese with English abstract).
HATAYAMA H, TAHARA K. 2015. Evaluating the sufficiency of Japan ׳s mineral resource entitlements for supply risk mitigation[J]. Resources Policy, 44: 72-80.
HAYES S M, MCCULLOUGH E A. 2018. Critical minerals: A review of elemental trends in comprehensive criticality studies[J]. Resources Policy, 59: 192-199.
HU Cun-zhi.2009. Research on national mineral resources planning[M]. Beijing: Geological Publishing House(in Chinese).
JIANG Ya, WANG Ting, LONG Tao. 2021. Research on listing barite as a strategic mineral resource[J]. Acta Geoscientica Sinica, 42(2): 297-302(in Chinese with English abstract).
LI Jian-wu, LI Tian-jiao, ZHOU Yan-jing, LI Ying, MA Zhe, LI Fang-qin. 2018. Determination of the list of China's strategic and critical minerals in the new era[R]. Beijing: Research Center for Strategy of Global Mineral Resources, Chinese Academy of Geological Sciences(in Chinese).
LI Xian-hai, WANG Dan, WU Shang-kun. 2014. The domestic strategic mineral resources evaluation index selection: thinking based on list of key-minerals such as the United States, the European Union[J]. China Mining Magazine, 23(4): 30-33(in Chinese with English abstract).
LIU Wen-hao, LIU Xue, ZHENG Jun-wei. 2021. Bibliometric evaluation of international critical mineral resources research trendJ]. Multipurpose Utilization of Mineral Resources, (5): 59-66, 58(in Chinese with English abstract).
NASSAR N T, BRAINARD J, GULLEY A, MANLEY R, MATOS G, LEDERER G, BIRD L R, PINEAULT D, ALONSO E, GAMBOGI J, FORTIER S M. 2020. Evaluating the mineral commodity supply risk of the US manufacturing sector[J]. Science Advances, 6(8): eaay8647.
NASSAR N T, FORTIER S M. 2021. Methodology and technical input for the 2021 review and revision of the US critical minerals list[R]. Reston, Virginia: US Geological Survey.
NASSAR N, XUN S, FORTIER S, SCHOEBERLEIN D. 2016. Assessment of critical minerals: Screening methodology and initial application[R]. Washington DC: The Office Science and Technology Policy.
NRC (National Research Council).2008. Minerals, critical minerals, and the U.S. economy[M]. Washington DC: National Academies Press.
QI Ya-bin. 2002. Research on China's mineral resources reserve[J]. Resources Industries, (6): 53-54(in Chinese).
RESEARCH CENTER FOR STRATEGY OF GLOBAL MINERAL RESOURCES. 2006. Research on the strategy of mineral resources stock[R]. Beijing: Research Center for Strategy of Global Mineral Resources, Chinese Academy of Geological Sciences(in Chinese).
RESEARCH CENTER FOR STRATEGY OF GLOBAL MINERAL RESOURCES. 2016. Research on the variety and scale of medium and long-term national material stock[R]. Beijing: Research Center for Strategy of Global Mineral Resources, Chinese Academy of Geological Sciences(in Chinese).
SCHULZ K J, DEYOUNG J H, SEAL R R, BRADLEY D C.2017. Critical mineral resources of the United States-Economic and environmental geology and prospects for future supply[M]. Reston, Virginia: U. S. Geological Survey: 797.
TANG Jin-rong, YANG Zong-xi, ZHOU Ping, SHI Jun-fa. 2014. The progress in the strategic study of critical minerals and its implications[J]. Geological Bulletin of China, 33(9): 1445-1453(in Chinese with English abstract).
US PUBLIC LAWS. 1939. Strategic and critical materials stock piling act (Chapter 190, enacted June 7, 1939)[EB/OL]. [2022-09-25]. http://legcounsel.house.gov.
WANG An-jian, WANG Gao-shang, DENG Xiang-zheng, ZHOU Feng-ying, AN Hai-zhong, ZHONG Wei-qiong, LI Hua-jiao, LIU Gang, MA Zhe, HU Dong-bin, CHENG Jin-hua, YAN Qiang, DAI Tao, ZHONG Mei-rui, WANG Xiao-lin. 2019. Security and management of China’s critical mineral resources in the new era[J]. Bulletin of National Natural Science Foundation of China, 33(2): 133-140(in Chinese with English abstract).
WANG An-jian, YUAN Xiao-jing. 2022. Security of China’s strategic and critical minerals under background of great power competition[J]. Bulletin of Chinese Academy of Sciences, 37(11): 1550-1559(in Chinese with English abstract).
WANG Chun-lian, WANG Jiu-yi, YOU Chao, YU Xiao-can, LIU Dian-he, YAN Kai, LIU Si-han, XUE Yan, LIU Yan-ting, LIU Xue, YIN Chuan-kai. 2022. A study on strategic non-metallic mineral definition, key applications, and supply and demand situation[J]. Acta Geoscientica Sinica, 43(3): 267-278(in Chinese with English abstract).
WANG Deng-hong. 2019. Study on critical mineral resources: significance of research, determination of types, attributes of resources, progress of prospecting, problems of utilization, and direction of exploitation[J]. Acta Geologica Sinica, 93(6): 1189-1209(in Chinese with English abstract).
WANG Ling. 2019. Considerations on strategic non-metallic mineral resources[J]. Conservation and Utilization of Mineral Resources, 39(6): 1-7(in Chinese with English abstract).
WANG Xiao-dong. 2005. Study on the scale and management of strategic mineral resources reserve[D]. Changsha: Central South University(in Chinese with English abstract).
WEN Bo-jie, CHEN Yu-chuan, WANG Gao-shang, DAI Tao. 2019. China’s demand of energy and mineral resources by 2035[J]. Strategic Study of CAE, 21(1): 68-73(in Chinese with English abstract).
YAN Wen-yi, WANG Zhao-long, CAO Hong-bin, ZHANG Yi, SUN Zhi. 2021. Criticality assessment of metal resources in China[J]. IScience, 24: 102524.
ZHAI Ming-guo, HU Bo. 2021. Thinking to state security, international competition and national strategy of mineral resources[J]. Journal of Earth Sciences and Environment, 43(1): 1-11(in Chinese with English abstract).
ZHAI Ming-guo, WU Fu-yuan, HU Rui-zhong, JIANG Shao-yong, LI Wen-chang, WANG Ru-cheng, WANG Deng-hong, QI Tao, QIN Ke-zhang, WEN Han-jie. 2019. Critical metal mineral resources: current research status and scientific issues[J]. Bulletin of National Natural Science Foundation of China, 33(2): 106-111(in Chinese with English abstract).
ZHANG Xin-an, ZHANG Ying-xin. 2011. The “rare, scattered, rare earth” metals and other high-tech minerals development and utilization have been raised to a strategic height[J]. Land and Resources Information, (6): 2-7(in Chinese).
-
计量
- 文章访问数: 87
- PDF下载数: 8
- 施引文献: 0
下载: