| 1 |
Flotation intensification of low-rank coal using a new compound collector
Zhu CY, Xing YW, Xia YC, Wang YT, Li GS, Gui XH
Powder Technology, 370, 197, 2020 |
| 2 |
Recovering clean low-rank coal using shale oil as a flotation collector
Xia YC, Zhang R, Yang ZL, Xing YW, Gui XH
Energy Sources Part A-recovery Utilization and Environmental Effects, 41(15), 1838, 2019 |
| 3 |
Effects of pore compression pretreatment on the flotation of low-rank coal
Yang ZL, Xia YC, Li M, Ma ZJ, Xing YW, Gui XH
Fuel, 239, 63, 2019 |
| 4 |
Application of gaseous pyrolysis products of the waste cooking oil as coal flotation collector
Shen L, Min FF, Liu LY, Zhu JB, Xue CG, Cai CC, Zhou W, Wang C
Fuel, 239, 446, 2019 |
| 5 |
Performance of used lubricating oil as flotation collector for the recovery of clean low-rank coal
Xia YC, Yang ZL, Zhang R, Xing YW, Gui XH
Fuel, 239, 717, 2019 |
| 6 |
Optimization of collector and its action mechanism in lignite flotation
Cheng G, Li ZY, Ma ZL, Cao YJ, Sun LJ, Jiang ZD
Powder Technology, 345, 182, 2019 |
| 7 |
The effect of chemical reagents on flotation performance of a pentlandite ore: An attainable region approach
Sibanda V, Khan R, Danha G
Powder Technology, 352, 462, 2019 |
| 8 |
Selective adsorption of benzhydroxamic acid on fluorite rendering selective separation of fluorite/calcite
Jiang W, Gao ZY, Khoso SA, Gao JD, Sun W, Pu W, Hu YH
Applied Surface Science, 435, 752, 2018 |
| 9 |
Combined effect of chemical composition and spreading velocity of collector on flotation performance of oxidized coal
Wang YW, Cao YJ, Li GS, Liao YF, Xing YW, Gui XH
Powder Technology, 325, 1, 2018 |
| 10 |
Flotation intensification of the coal slime using a new compound collector and the interaction mechanism between the reagent and coal surface
He JF, Liu CG, Yao YK
Powder Technology, 325, 333, 2018 |
