화학공학소재연구정보센터
검색결과 : 46건
No. Article
1 Prediction of CO2-Oil Minimum Miscibility Pressure Using Soft Computing Methods
Dehaghani AHS, Soleimani R
Chemical Engineering & Technology, 43(7), 1361, 2020
2 Identification of CO2 sequestration opportunities: CO2 miscible flooding guidelines
Zhang N, Yin MF, Wei MZ, Bai BJ
Fuel, 241, 459, 2019
3 Estimation of minimum miscibility pressure (MMP) in enhanced oil recovery (EOR) process by N-2 flooding using different computational schemes
Barati-Harooni A, Najafi-Marghmaleki A, Hoseinpour SA, Tatar A, Karkevandi-Talkhooncheh A, Hemmati-Sarapardeh A, Mohammadi AH
Fuel, 235, 1455, 2019
4 A dual-porosity dual-permeability model for acid gas injection process evaluation in hydrogen-carbonate reservoirs
Luo EH, Fan ZF, Hu YL, Zhao L, Zhao HY, Wang JJ, He CG, Zeng X
International Journal of Hydrogen Energy, 44(36), 25169, 2019
5 Factorial two-stage analyses of parameters affecting the oil-gas interface and miscibility in bulk phase and nanopores
Zhang KQ, Meng Z, Liu LR
Journal of Colloid and Interface Science, 555, 740, 2019
6 Prediction of minimum miscibility pressure of pure CO2, carbon dioxide gas mixtures and polymer-supercritical CO2 in oil using modified quadrupole Cubic Plus Association Equation of State (mqCPA EoS)
Haghtalab A, Hasannataj H, Panah HS
Fluid Phase Equilibria, 478, 114, 2018
7 Modeling minimum miscibility pressure during pure and impure CO2 flooding using hybrid of radial basis function neural network and evolutionary techniques
Karkevandi-Talkhooncheh A, Rostami A, Hemmati-Sarapardeh A, Ahmadi M, Husein MM, Dabir B
Fuel, 220, 270, 2018
8 Application of predicted bubble-rising velocities for estimating the minimum miscibility pressures of the light crude oil-CO2 systems with the rising bubble apparatus
Zhang KQ, Jia N, Zeng FH
Fuel, 220, 412, 2018
9 Millimeter to nanometer-scale tight oil-CO2 solubility parameter and minimum miscibility pressure calculations
Zhang KQ, Jia N, Li SY, Liu LR
Fuel, 220, 645, 2018
10 Minimum miscibility pressure and interfacial tension measurements for N-2 and CO2 gases in contact with W/O emulsions for different temperatures and pressures
Fathinasab M, Ayatollahi S, Taghikhani V, Shokouh SP
Fuel, 225, 623, 2018