Exploring salting-out phenomena in air-assisted solvent extraction of Cu

Air-assisted solvent extraction (AASX) has been introduced as an alternative method with a high potential for recovering metals from dilute solutions in alignment with sustainable development goals. This research investigates the effect of salting out using KCl, NaCl, CaCl 2 , NaNO 3 , and Na 2 SO 4...

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Published in	Separation science and technology Vol. 60; no. 3-5; pp. 414 - 425
Main Authors	Rahmati, Soroush, Ahmadi, Ali, Adavodi, Roshanak
Format	Journal Article
Language	English
Published	Abingdon Taylor & Francis 24.03.2025 Taylor & Francis Ltd
Subjects	Air-assisted solvent extraction Anions Aqueous electrolytes Bubbles Calcium chloride Cations Coalescence continuous mode Copper Cu recovery dilute solutions Dilution electrolyte Electrolytes Fluids Heavy metals Potassium chloride Recovery Recycling Retention time Salting Sodium chloride Sodium sulfate Solvent extraction Solvent extraction processes Solvents Sustainable development Sustainable Development Goals
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ISSN	0149-6395 1520-5754
DOI	10.1080/01496395.2024.2436470

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Abstract	Air-assisted solvent extraction (AASX) has been introduced as an alternative method with a high potential for recovering metals from dilute solutions in alignment with sustainable development goals. This research investigates the effect of salting out using KCl, NaCl, CaCl 2 , NaNO 3 , and Na 2 SO 4 on the efficiency of the AASX process (Cu recovery and organic-phase recycling). This study uses thermodynamic coefficient and bubble size values to interpret the relationship between AASX efficiency results and ions present in the aqueous phase (type and concentration of electrolytes). It was observed that salting out up to the inhibition concentration increases bubble size and distribution while decreasing bubble coalescence. The trend of anion effects (from highest to lowest) on copper recovery and organic-phase recycling was determined as NO 3− >SO 4 2− >Cl − and SO 4 2− > Cl − > NO 3 − , respectively. It was also found that the bubble-specific surface area, the retention time of fluids in the column, and the proportion of uncoated organic phase play significant roles in this process. This research emphasizes the potential of establishing the AASX process for extracting copper from dilute solutions containing barrier anions and cations in various industries.
AbstractList	Air-assisted solvent extraction (AASX) has been introduced as an alternative method with a high potential for recovering metals from dilute solutions in alignment with sustainable development goals. This research investigates the effect of salting out using KCl, NaCl, CaCl 2 , NaNO 3 , and Na 2 SO 4 on the efficiency of the AASX process (Cu recovery and organic-phase recycling). This study uses thermodynamic coefficient and bubble size values to interpret the relationship between AASX efficiency results and ions present in the aqueous phase (type and concentration of electrolytes). It was observed that salting out up to the inhibition concentration increases bubble size and distribution while decreasing bubble coalescence. The trend of anion effects (from highest to lowest) on copper recovery and organic-phase recycling was determined as NO 3− >SO 4 2− >Cl − and SO 4 2− > Cl − > NO 3 − , respectively. It was also found that the bubble-specific surface area, the retention time of fluids in the column, and the proportion of uncoated organic phase play significant roles in this process. This research emphasizes the potential of establishing the AASX process for extracting copper from dilute solutions containing barrier anions and cations in various industries. Air-assisted solvent extraction (AASX) has been introduced as an alternative method with a high potential for recovering metals from dilute solutions in alignment with sustainable development goals. This research investigates the effect of salting out using KCl, NaCl, CaCl2, NaNO3, and Na2SO4 on the efficiency of the AASX process (Cu recovery and organic-phase recycling). This study uses thermodynamic coefficient and bubble size values to interpret the relationship between AASX efficiency results and ions present in the aqueous phase (type and concentration of electrolytes). It was observed that salting out up to the inhibition concentration increases bubble size and distribution while decreasing bubble coalescence. The trend of anion effects (from highest to lowest) on copper recovery and organic-phase recycling was determined as NO3−>SO42−>Cl− and SO42− > Cl− > NO3−, respectively. It was also found that the bubble-specific surface area, the retention time of fluids in the column, and the proportion of uncoated organic phase play significant roles in this process. This research emphasizes the potential of establishing the AASX process for extracting copper from dilute solutions containing barrier anions and cations in various industries.
Author	Adavodi, Roshanak Rahmati, Soroush Ahmadi, Ali
Author_xml	– sequence: 1 givenname: Soroush surname: Rahmati fullname: Rahmati, Soroush organization: Isfahan University of Technology – sequence: 2 givenname: Ali surname: Ahmadi fullname: Ahmadi, Ali email: a.ahmadi@iut.ac.ir organization: Isfahan University of Technology – sequence: 3 givenname: Roshanak surname: Adavodi fullname: Adavodi, Roshanak organization: University of L'Aquila
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SubjectTerms	Air-assisted solvent extraction Anions Aqueous electrolytes Bubbles Calcium chloride Cations Coalescence continuous mode Copper Cu recovery dilute solutions Dilution electrolyte Electrolytes Fluids Heavy metals Potassium chloride Recovery Recycling Retention time Salting Sodium chloride Sodium sulfate Solvent extraction Solvent extraction processes Solvents Sustainable development Sustainable Development Goals
Title	Exploring salting-out phenomena in air-assisted solvent extraction of Cu
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