Optimization of medium–low-grade phosphorus rock carbothermal reduction process by response surface methodology

Abstract: AbstractPhosphorus extraction from phosphorus rock was conducted by carbothermal reduction with silica and coke. The effects of reaction temperature, reaction time, coke excess coefficient, molar ratio of silicon–calcium, and phosphorus rock particle size on the phosphorus reduction rate were investigated by the response surface methodology (RSM). The central composite design (CCD) with five factors and five levels was used to explore the effects of variables’ interactions on t… Show more

“…For example, the response surface method is used to prepare LiFePO4/C by carbothermic and carbon thermal reduction of low-grade phosphate rock. 34,35 However, the optimisation of a carbothermal reduction process for zinc extraction from low-grade lead–zinc oxysulphide ore using response surface methodology has been reported in very few papers.…”

Phase transformation analysis and process optimisation of low-grade lead–zinc oxysulphide ore carbothermal reduction

“…For example, the response surface method is used to prepare LiFePO4/C by carbothermic and carbon thermal reduction of low-grade phosphate rock. 34,35 However, the optimisation of a carbothermal reduction process for zinc extraction from low-grade lead–zinc oxysulphide ore using response surface methodology has been reported in very few papers.…”

Phase transformation analysis and process optimisation of low-grade lead–zinc oxysulphide ore carbothermal reduction

Sticking Behavior of Pellets During Direct Reduction Based on Hydrogen Metallurgy: An Optimization Approach Using Response Surface Methodology

Kinetics of Carbothermal Reduction Process of Different Size Phosphate Rocks