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Effect of potassium feldspar on the decomposition rate of phosphogypsum

Dinghui Lu, Qianlin Chen, Cuiqin Li, Shang Gong

2020Journal of Chemical Technology & Biotechnology24 citationsDOI

Abstract

Abstract Background Phosphogypsum (PG) is a solid waste from a wet process of phosphoric acid and its main component is CaSO 4 ·2H 2 O. However, the temperature of PG decomposition is above 1200 °C. In this study, the decomposition temperature of PG was decreased using a small amount of coke as reducing agent, and the decomposition rate of PG can be further increased using potassium feldspar (K‐feldspar) as an additive to form a eutectic mixture with PG in nitrogen atmosphere. Results A high PG decomposition rate of 99.40% was obtained at 1150 °C for 25 min, when the mass ratio of coke to PG and K‐feldspar to PG was 0.07 and 0.43, respectively. Compared with the addition of coke alone (coke/PG = 0.07) as the reducing agent, the decomposition rate of PG was increased by 35.40%. The HSC Chemistry software 8 was used to calculate the equilibrium compositions of the PG @K‐feldspar @coke system, and the decomposition rate of 99.77% was obtained at 1150 °C by calculation. The experimental results are basically consistent with the thermodynamic equilibrium calculation. Conclusion The PG and K‐feldspar are fully utilized by calcination. The decomposition reaction of PG can proceed via the continuous consumption of CaO and CaS by K‐feldspar, which increased the decomposition rate of PG. The thermodynamic calculation results showed a good agreement between the equilibrium value calculated and the experimental data obtained. Furthermore, the calcined products can be used as an agricultural potassium fertilizer. © 2020 Society of Chemical Industry (SCI)

Topics & Concepts

PhosphogypsumDecompositionCokeCalcinationChemistryPotassiumFeldsparThermal decompositionChemical process of decompositionMineralogyNuclear chemistryInorganic chemistryRaw materialMaterials scienceMetallurgyOrganic chemistryCatalysisQuartzClay minerals and soil interactionsRecycling and utilization of industrial and municipal waste in materials productionRadioactive element chemistry and processing
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