| 1 |
Polyether-Based Thermoviscosifying Polymers for Enhanced Oil Recovery: Emulsion versus Powder
Zhou GW, Wang MM, Sun G, Li CQ, Han PH, Quan HP, Su X, Feng YJ
Energy & Fuels, 34(3), 2824, 2020 |
| 2 |
Tuning CO2-induced reversible redispersion or irreversible destabilisation for latex separation
Mu M, Yuan R, Zhang GH, Wu DG, Quan HP, Han PH, Feng YJ
Journal of Colloid and Interface Science, 573, 250, 2020 |
| 3 |
The effect of hydrogen bonds between flow improvers with asphaltene for heavy crude oil
Quan HP, Xing LM
Fuel, 237, 276, 2019 |
| 4 |
Facile pyrolysis synthesis of ionic liquid capped carbon dots and subsequent application as the water-based lubricant additives
Tang WW, Wang BG, Li JT, Li YZ, Zhang Y, Quan HP, Huang ZY
Journal of Materials Science, 54(2), 1171, 2019 |
| 5 |
The effect of a kind of hyperbranched polyester with different carbon length on flowability for crude oil
Quan HP, Chen L, Huang ZY, Wang JY, Zheng CC
Fuel, 214, 356, 2018 |
| 6 |
pH-switchable and CO2-switchable viscoelastic fluids based on a pseudo-hydrophobically associating water-soluble polymer
Tian HY, Quan HP, Huang ZY, Jiang SL
Fuel, 227, 42, 2018 |
| 7 |
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying Polymer Versus Polyacrylamide
Li XE, Xu Z, Yin HY, Feng YJ, Quan HP
Energy & Fuels, 31(3), 2479, 2017 |
