| 1 |
Comprehensive evaluation and sensitivity analysis of regeneration energy for acid gas removal plant using single and activated-methyl diethanolamine solvents
Abd AA, Naji SZ, Barifcani A
Chinese Journal of Chemical Engineering, 28(6), 1684, 2020 |
| 2 |
Novel metal.organic framework of UTSA-16 (Zn) synthesized by a microwave method: Outstanding performance for CO2 capture with improved stability to acid gases
Gaikwad S, Kim SJ, Han SI
Journal of Industrial and Engineering Chemistry, 87, 250, 2020 |
| 3 |
Demanding Problems of Amine Treating of Natural Gas: Analysis and Ways of Solution
Golubeva IA, Dashkina AV, Shulga IV
Petroleum Chemistry, 60(1), 45, 2020 |
| 4 |
Towards a cleaner natural gas production: recent developments on purification technologies
Abdulsalam J, Mulopo J, Amosa MK, Bada S, Falcon R, Oboirien BO
Separation Science and Technology, 54(15), 2461, 2019 |
| 5 |
Improvement of the PR-CPA equation of state for modelling of acid gases solubilities in aqueous alkanolamine solutions
Wang TY, El Ahmar E, Coquelet C, Kontogeorgis GM
Fluid Phase Equilibria, 471, 74, 2018 |
| 6 |
Effect of acid gases on kinetic hydrate inhibitors
Tohidi F, Anderson R, Tohidi B
Journal of Chemical Thermodynamics, 117, 119, 2018 |
| 7 |
Preparation of amine functionalized reduced graphene oxide/methyl diethanolamine nanofluid and its application for improving the CO2 and H2S absorption
Irani V, Tavasoli A, Vahidi M
Journal of Colloid and Interface Science, 527, 57, 2018 |
| 8 |
Modelling the solubility of H2S and CO2 in ionic liquids using PC-SAFT equation of state
Al-fnaish H, Lue L
Fluid Phase Equilibria, 450, 30, 2017 |
| 9 |
Effect of Temperature on Gas Transport Properties of Supported Ionic Liquid Membranes
Akhmetshina AI, Yanbikov NR, Petukhov AN, Vorotyntsev IV
Petroleum Chemistry, 57(9), 770, 2017 |
| 10 |
Advances in in sulfur chemistry for treatment of acid gases
Gupta AK, Ibrahim S, Al Shoaibi A
Progress in Energy and Combustion Science, 54, 65, 2016 |
