Solid-liquid separation techniques for efficient recovery of P2O5 from phosphoric sludge

Phosphoric acid sludge is one of the prominent problems in the phosphate industry. Its production co-occurs with large losses of P2O5 that affect the process performance. Management and valorization of this waste is a key issue. For the industrial application in solid-liquid separation, selecting th...

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Bibliographic Details
Published in:Chemical Industry & Chemical Engineering Quarterly 2020, Vol.26 (4), p.385-393
Main Authors: Jouraiphy, Rim, Anouar, Islaam, Mazouz, Hamid, El, Kortobi, Boulif, Rachid, Mahrou, Ahmed, Ibnlfassi, Amina
Format: Article
Language:English
Subjects:
centrifugation
p2o5 recovery
phosphoric acid sludge
press filtration
solid-liquid separation
vacuum filtration
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Summary:Phosphoric acid sludge is one of the prominent problems in the phosphate industry. Its production co-occurs with large losses of P2O5 that affect the process performance. Management and valorization of this waste is a key issue. For the industrial application in solid-liquid separation, selecting the suitable technique for an efficient separation is a fundamental factor. Most of the separation processes fail because of insufficient development effort in the laboratory phase and misunderstanding of separation objectives. The aim of this work is to deal with the P2O5 losses by studying their recovery from phosphoric sludge using a physical solid-liquid separation technique. Hence, laboratory tests have been conducted using vacuum filtration, centrifugation, and press filtration. The comparison was based on three requirements: the liquid recovery rate for each method, the amount of P2O5 recovered, and the solid content remaining in the recovered acid. Results showed that press filtration gave the higher performance of P2O5 recovery, up to 88.90%, followed by vacuum filtration with 69.81% and then centrifugation with 80.91%.
ISSN:1451-9372
2217-7434
DOI:10.2298/CICEQ191225016J