| 1 |
Comparison of air and oily bubbles flotation kinetics of long-flame coal
Chen SJ, Tao XX, Wang SW, Tang LF, Liu QZ, Li LL
Fuel, 236, 636, 2019 |
| 2 |
Exploration on the mechanism of oily-bubble flotation of long-flame coal
Chen SJ, Tang LF, Tao XX, He H, Yang Z, Chen L
Fuel, 216, 427, 2018 |
| 3 |
Oily bubble flotation technology combining modeling and optimization of parameters for enhancement of flotation of low-flame coal
Chen SJ, Li LL, Qu JZ, Liu QZ, Tang LF, Tao XX, Fan HD
Powder Technology, 335, 171, 2018 |
| 4 |
Wetting thermodynamics of low rank coal and attachment in flotation
Chen SJ, Yang Z, Chen L, Tao XX, Tang LF, He H
Fuel, 207, 214, 2017 |
| 5 |
Enhancing flotation performance of low rank coal by improving its hydrophobicity and the property of oily bubbles using 2-ethylhexanol
Chen SJ, Tang LF, Tao XX, He HA, Chen L, Yang Z
International Journal of Mineral Processing, 167, 61, 2017 |
| 6 |
Comparison of flotation performances of low rank coal in air and oily bubble processes
Wang SW, Tao XX
Powder Technology, 320, 37, 2017 |
| 7 |
Reactive oily bubble technology for flotation of apatite, dolomite and quartz
Zhou F, Wang LX, Xu ZH, Liu QX, Chi R
International Journal of Mineral Processing, 134, 74, 2015 |
| 8 |
Application of reactive oily bubbles to bastnaesite flotation
Zhou F, Wang LX, Xu ZH, Liu QX, Deng MJ, Chi R
Minerals Engineering, 64, 139, 2014 |
| 9 |
Investigation on foaming properties of some organics for oily bubble bitumen flotation
Tarkan HM, Bayliss DK, Finch JA
International Journal of Mineral Processing, 90(1-4), 90, 2009 |
