4.7 Article

Toward sustainable utilization of tungsten: Evidence from dynamic substance flow analysis from 2001 to 2019 in China

Journal

RESOURCES CONSERVATION AND RECYCLING
Volume 182, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.resconrec.2022.106307

Keywords

Tungsten; Dynamic substance flow analysis; China; Resource efficiency; Circular economy

Funding

  1. National Key R&D Program of China [2019YFC1908501]
  2. Natural Science Foundation of China [72088101, 71810107001, 71690241]

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This study investigates China's tungsten flow patterns through a hybrid dynamic substance flow analysis. The results reveal that China is the largest tungsten supplier and consumer globally, but unstable production capacity leads to tungsten surplus and loss. Additionally, domestic industry upgrade and economic development impact the tungsten trade structure, while only a small percentage of end-of-life products are recycled.
Tungsten is one strategic metal with diverse applications ranging from military, infrastructure to chemical industry. China is the biggest tungsten supplier and consumer in the world, but few studies focus on the domestic tungsten supply and demand. By conducting a hybrid dynamic substance flow analysis, this study investigates China's tungsten flow patterns from 2001 to 2019. Various flows (transformation, loss, trade and recycling flows) and stocks are explored, covering all the relevant aspects of tungsten extraction, production, consumption, trade and waste management. Results present that China had extracted around 1344 metric kilo-tons (kt) tungsten ores from earth crust, consumed 634 kt domestically and exported 381 kt to other countries during the study period. Key findings include: 1) unstable production capacity had led to 136.16 kt of tungsten surplus during the study period; 2) 309 kt of tungsten were lost in tailings due to inefficient mining and beneficiation technologies; 3) domestic industry upgrade and rapid economic development induced dynamic changes of tungsten trade structure in China; 4) only 17.72% of end-of-life (EoL) products had been recycled during the study period. Finally, policy recommendations are raised to improve the overall tungsten resource efficiency from governance, economic instruments and technology perspectives.

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