Ultrasonic Assisted Microchannel Extraction of Fe(III) from Wet-Process Phosphoric Acid

Abstract: An ultrasonic assisted microchannel extraction (UAME) method was developed for the extraction of Fe(III) from wet-process phosphoric acid with di(2-ethylhexyl)phosphoric acid (D2EHPA). The influences of ultrasonic power, extractant concentration, water phase velocity and the ratio of the organic and aqueous phases (O/A) on the extraction rate of Fe(III) were systematically studied. The results showed that the extraction efficiency of Fe(III) reached 91.08%, which was significantly higher than that for ultrasou… Show more

“…Usually, commercial phosphoric acid is produced via hot-process or wet-process. And due to the low-cost and low-energy advantages of the wet-process, 90% of phosphoric acid is produced through the wet-process [2][3][4]. However, many impurities are introduced into WPA (wet-process phosphoric acid) production, and Mg may be the most annoying impurity because it can increase the viscosity of WPA [4][5][6].…”

“…In a typical microfluidic reactor like the micro-channel, the organic phase and aqueous phase are limited in a specific space, leading to the enhancement of the mass transfer because of the significant increase of interface area and contact opportunity [27][28][29][30]. In our previous work, the extractant D2EHPA had shown great efficiency for the extraction of Fe 3+ in the UAME system [2,3]. However, D2EHPA showed less efficiency when dealing with Mg 2+ in WPA.…”

Ultrasound-Assisted Micro-Channel Extraction of Magnesium from Wet-Process Phosphoric Acid

“…Usually, commercial phosphoric acid is produced via hot-process or wet-process. And due to the low-cost and low-energy advantages of the wet-process, 90% of phosphoric acid is produced through the wet-process [2][3][4]. However, many impurities are introduced into WPA (wet-process phosphoric acid) production, and Mg may be the most annoying impurity because it can increase the viscosity of WPA [4][5][6].…”

“…In a typical microfluidic reactor like the micro-channel, the organic phase and aqueous phase are limited in a specific space, leading to the enhancement of the mass transfer because of the significant increase of interface area and contact opportunity [27][28][29][30]. In our previous work, the extractant D2EHPA had shown great efficiency for the extraction of Fe 3+ in the UAME system [2,3]. However, D2EHPA showed less efficiency when dealing with Mg 2+ in WPA.…”

Ultrasound-Assisted Micro-Channel Extraction of Magnesium from Wet-Process Phosphoric Acid