Minerals extraction from seawater brines is currently regarded as the most practical approach to reduce European dependency from the import of many Critical Raw Materials. The technical feasibility of such approach has been widely demonstrated in several different research and development projects but the economic sustainability has always been found to depend on the local demand for sodium chloride, which is always the most abundant product of the extraction. Starting from this crucial node, the SEArcularMINE project has investigated the possibility to use the residual brines originated by sea-salt extraction in traditional saltworks, regarded as an already well-established marketplace. The Mediterranean area as a whole, can rely on a diffused industry including South-European coast, North-African and Close East coast and portions of the Atlantic regions. Additionally, many inland salt-lakes and subsoil waters are traditionally operated in the same way as the coastal facilities to produce solar-salt. Interestingly, each saltworks have a slightly different approach, adapted to feed quality or local climate conditions. Accordingly, different types of brine are produced, having unique features. These “bitterns” are extremely interesting to characterize, focusing on their hidden potential. In this work, an extensive analytical campaign has been conducted exploiting the wide saltworks network established within the SEArcularMINE project. Main results are here reported, highlighting the possibility of contributing to secure the access to some Critical Raw Materials for EU

S. Randazzo, F.V. (2022). Potentials for critical raw materials recovery from Mediterranean saltworks bitterns. In Desalination for the Environment. Clean Water and Energy. 20–23 June 2022. Las Palmas de Gran Canaria, Las Palmas, Spain. Book of Abstracs (pp. 150-150). European Desalination Society.

Potentials for critical raw materials recovery from Mediterranean saltworks bitterns

S. Randazzo;F. Vicari
;
R. Lo Brutto;S. Cataldo;N. Muratore;G. Micale;A. Tamburini;A. Pettignano;A. Cipollina
2022-01-01

Abstract

Minerals extraction from seawater brines is currently regarded as the most practical approach to reduce European dependency from the import of many Critical Raw Materials. The technical feasibility of such approach has been widely demonstrated in several different research and development projects but the economic sustainability has always been found to depend on the local demand for sodium chloride, which is always the most abundant product of the extraction. Starting from this crucial node, the SEArcularMINE project has investigated the possibility to use the residual brines originated by sea-salt extraction in traditional saltworks, regarded as an already well-established marketplace. The Mediterranean area as a whole, can rely on a diffused industry including South-European coast, North-African and Close East coast and portions of the Atlantic regions. Additionally, many inland salt-lakes and subsoil waters are traditionally operated in the same way as the coastal facilities to produce solar-salt. Interestingly, each saltworks have a slightly different approach, adapted to feed quality or local climate conditions. Accordingly, different types of brine are produced, having unique features. These “bitterns” are extremely interesting to characterize, focusing on their hidden potential. In this work, an extensive analytical campaign has been conducted exploiting the wide saltworks network established within the SEArcularMINE project. Main results are here reported, highlighting the possibility of contributing to secure the access to some Critical Raw Materials for EU
2022
Saltworks; Bitterns; Analytical tecniques; Critical Raw Materials; Minerals recovery
S. Randazzo, F.V. (2022). Potentials for critical raw materials recovery from Mediterranean saltworks bitterns. In Desalination for the Environment. Clean Water and Energy. 20–23 June 2022. Las Palmas de Gran Canaria, Las Palmas, Spain. Book of Abstracs (pp. 150-150). European Desalination Society.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/566257
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