Abstract
Because of their unique physical and chemical properties, Rare earth elements (REEs) perform important functions in our everyday lives, with use in a range of products. Recently, the study of China’s rare earth elements production has become a hot topic of worldwide interest, because of its dominant position in global rare earth elements supply, and an increasing demand for rare earth elements due to the constant use of rare earth elements in high-tech manufacturing industries. At the same time, as an exhaustible resource, the sustainable development of rare earth elements has received extensive attention. However, most of the study results are based on a qualitative analysis of rare earth elements distribution and production capacity, with few studies using quantitative modeling. To achieve reliable results with more factors being taken into consideration, this paper applies the generic multivariant system dynamics model to forecast China’s rare earth elements production trend and Hubbert peak, using Vensim software based on the Hubbert model. The results show that the peak of China’s rare earth elements production will appear by 2040, and that production will slowly decline afterwards. Based on the results, the paper proposes some policy recommendations for the sustainable development of China’s—and the world’s—rare earth elements market and rare earth-related industries.
Highlights
The rare earth elements (REEs) are indispensable elements in modern industry, and are widely used in the new energy, new materials, energy conservation, environmental protection, aerospace, and electronic information industries
The variables in the model are mutually affected, which could be fully revealed by a system dynamic model
(1) The Hubbert model is applicable in the field of REEs supply issues
Summary
The rare earth elements (REEs) are indispensable elements in modern industry, and are widely used in the new energy, new materials, energy conservation, environmental protection, aerospace, and electronic information industries. Because of their unique physical and chemical properties, REEs perform important functions in our everyday lives, with use in a range of products [1]. There are 110 million tons of REEs reserves globally, half of which are located in China, 17.3 percent in Russia, and 11.8 percent in the United States. China has become the world’s dominant producer, user, and exporter of REEs in recent decades, and accounts for about 90% of global REEs production [4]. Since 2004, the change of the world’s REEs production has been synchronized with China’s REEs production, since China’s REEs production has considerably been close to the global REEs production
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