Strontium Minerals as Critical Raw Materials—Market Dynamics, Processing Techniques, and Future Challenges
Paper in proceeding, 2024

In 2020, the European Union officially designated strontium as a critical raw material (CRM) due to its diverse applications and limited global producers, with Spain as one of the primary producers and the only one in the EU. This comprehensive review discusses strontium’s market dynamics, global reserves, and the technological advancements in mineral processing techniques for extracting and concentrating its principal bearing minerals, celestine (SrSO₄) and strontianite (SrCO₃). The review highlights the shift in strontium demand, led until the mid-2000s by applications in cathode ray tube (CRT) glass, to current uses focused on pyrotechnics, ceramic magnets, and drilling fluids. The study evaluates the progression of beneficiation methods, from manual sorting to advanced techniques such as size separation, gravity separation, flotation, and dense media separation, with recent innovations demonstrating enhanced recovery and purity of celestine concentrates. Industrial case studies from various regions, including Spain and China, illustrate significant advancements and regional variations in celestine processing while emphasising the need for further research and transparency in reporting beneficiation methodologies. Additionally, the review addresses the environmental implications of strontium production and underscores the importance of improving circularity through recycling, particularly in light of the negligible End-of-Life Recycling Input Rate (EOLRIR) for strontium in the EU. Emerging applications in magnet technology, medicine, and smart materials present new opportunities, potentially reducing reliance on rare-earth elements and fostering innovation. The paper also explores the anticipated effects of strontium’s CRM status on future demand, highlighting the need for continued research and technological advancements in strontium beneficiation to ensure a stable supply chain. The sustained study and optimisation of extraction and processing methodologies are crucial in meeting the demand from evolving industrial applications and addressing the current and future challenges in the supply of this critical raw material.

Author

Diego Mesa

Imperial College London

Pablo R. Brito-Parada

Imperial College London

Varun Gowda Palahalli Ramesh

Chalmers, Industrial and Materials Science, Product Development

Kanishk Bhadani

Chalmers, Industrial and Materials Science, Product Development

Gauti Asbjörnsson

Chalmers, Industrial and Materials Science, Product Development

Francisco Ortega-García

CANTERAS INDUSTRIALES SL

Noemi Ariza-Rodríguez

CANTERAS INDUSTRIALES SL

XXXI IMPC-International Minerals Processing Congress

Vol. XXXI 1296-1307
978-0-87335-518-6 (ISBN)

XXXI IMPC-International Minerals Processing Congress
Washington D.C., USA,

Rotate - Circular, Ecological, Essential and Critical Raw Materials

European Commission (EC) (101058651), 2022-07-01 -- 2027-07-01.

Subject Categories

Mechanical Engineering

Environmental Engineering

Driving Forces

Sustainable development

Areas of Advance

Production

More information

Created

10/10/2024