[Oral Presentation]Sequence closed-loop recovery of fluoride, phosphate, and sulfate anions from phosphogypsum leachate via precipitation-electrodialysis-crystallization approaches
00
days
00
hours
00
minutes
00
seconds
00
days
00
hours
00
minutes
00
seconds

[Oral Presentation]Sequence closed-loop recovery of fluoride, phosphate, and sulfate anions from phosphogypsum leachate via precipitation-electrodialysis-crystallization approaches

Sequence closed-loop recovery of fluoride, phosphate, and sulfate anions from phosphogypsum leachate via precipitation-electrodialysis-crystallization approaches
ID:56 Submission ID:353 View Protection:ATTENDEE Updated Time:2024-05-16 19:33:12 Hits:514 Oral Presentation

Start Time:2024-05-30 17:25 (Asia/Shanghai)

Duration:15min

Session:[S6] Clean Processing, Conversion and Utilization of Energy Resources » [S6-1] Afternoon of May 30th

No files

Abstract
Phosphogypsum (PG) is a large-scale industrial by-product generated during the production of phosphoric acid, typically being deposited in landfills worldwide. The leaching of fluoride (F), phosphate (PO43–), and sulfate (SO42–) anions from PG into water bodies through rainfall results in significant environmental pollution. Herein, we proposed a stepwise precipitation combined with electrodialysis and crystallization strategy for efficient recovery and valorization of multiple anions from PG leachate. Our method demonstrates effectiveness both theoretically and practically. Consequently, fluoride anions were precipitated as CaF2 and Ca5(PO4)3F at pH 4.7, with a recovery rate of 98.80%; phosphate anions as MgNH4PO4·H2O at pH 8.5, with a recovery rate of 99.91%; and sulfate anions through electrodialysis and crystallization with a recovery rate of 99.89%, ensuring effluent met discharge standards. In addition, the concentrated sulfate-rich solution was employed for electrochemical production of persulfate, yielding ammonium persulfate salts after cooling crystallization. Our integrated approach for multiple anions recovery from PG leachate offers significant environmental and economic benefits, providing valuable insights and references for future research and practical productions.
 
Keywords
phosphogypsum,leachate,Recovery,fluoride,phosphate,sulfate
Speaker
Xiangyang Lou
Shenzhen Institute & Information Technology

Submission Author
Xiang-Yang Lou Shenzhen Institute & Information Technology
Comment submit
Verification code Change another
All comments

Contact us

Abstract and Paper:Ms. Zhang
Tel:(0086)-516-83995113
General Affairs:Ms. Zhang
Tel:(0086)-516-83590258
Hotel Services:Ms. ZHANG
Tel:15852197548
Sponsorship and Exhibition:Mr. Li
Tel:(0086)-516-83590246
Log in Registration Submit Abstract Hotel