| Kinetic study of carbon dioxide hydrate formation in presence of silver nanoparticles and SDS A Mohammadi, M Manteghian, A Haghtalab, AH Mohammadi, ... Chemical engineering journal 237, 387-395, 2014 | 347 | 2014 |
| A nonrandom factor model for the excess Gibbs energy of electrolyte solutions A Haghtalab, JH Vera AIChE journal 34 (5), 803-813, 1988 | 170 | 1988 |
| Absorption and solubility measurement of CO2 in water-based ZnO and SiO2 nanofluids A Haghtalab, M Mohammadi, Z Fakhroueian Fluid phase equilibria 392, 33-42, 2015 | 143 | 2015 |
| Experimental study and thermodynamic modeling of CO2 gas hydrate formation in presence of zinc oxide nanoparticles M Mohammadi, A Haghtalab, Z Fakhroueian The journal of chemical thermodynamics 96, 24-33, 2016 | 126 | 2016 |
| Experimental study of using Ca-DTPMP nanoparticles in inhibition of CaCO3 scaling in a bulk water process Z Kiaei, A Haghtalab Desalination 338, 84-92, 2014 | 102 | 2014 |
| Experiment and thermodynamic modeling of methane hydrate equilibria in the presence of aqueous imidazolium-based ionic liquid solutions using electrolyte cubic square well … M Zare, A Haghtalab, AN Ahmadi, K Nazari Fluid Phase Equilibria 341, 61-69, 2013 | 87 | 2013 |
| Experiment and modeling solubility of CO2 in aqueous solutions of diisopropanolamine+ 2-amino-2-methyl-1-propanol+ piperazine at high pressures A Haghtalab, H Eghbali, A Shojaeian The Journal of Chemical Thermodynamics 71, 71-83, 2014 | 76 | 2014 |
| Solubility and density of carbon dioxide in different aqueous alkanolamine solutions blended with 1-butyl-3-methylimidazolium acetate ionic liquid at high pressure A Shojaeian, A Haghtalab Journal of Molecular Liquids 187, 218-225, 2013 | 70 | 2013 |
| Effect of amphoteric surfactant on phase behavior of hydrocarbon-electrolyte-water system-an application in enhanced oil recovery H Yarveicy, A Haghtalab Journal of Dispersion Science and Technology 39 (4), 522-530, 2018 | 69 | 2018 |
| Application of CFD to evaluate the pore morphology effect on nanofluid flooding for enhanced oil recovery R Gharibshahi, A Jafari, A Haghtalab, MS Karambeigi RSC Advances 5 (37), 28938-28949, 2015 | 69 | 2015 |
| The new experimental data and a new thermodynamic model based on group contribution for correlation liquid–liquid equilibria in aqueous two-phase systems of PEG and (K2HPO4 or … A Haghtalab, B Mokhtarani Fluid phase equilibria 215 (2), 151-161, 2004 | 68 | 2004 |
| Computation of liquid–liquid equilibrium of organic-ionic liquid systems using NRTL, UNIQUAC and NRTL-NRF models A Haghtalab, A Paraj Journal of Molecular Liquids 171, 43-49, 2012 | 65 | 2012 |
| A modified Peng–Robinson equation of state for phase equilibrium calculation of liquefied, synthetic natural gas, and gas condensate mixtures A Haghtalab, P Mahmoodi, SH Mazloumi The Canadian Journal of Chemical Engineering 89 (6), 1376-1387, 2011 | 60 | 2011 |
| Sequential simulation of a fluidized bed membrane reactor for the steam methane reforming using ASPEN PLUS A Sarvar-Amini, R Sotudeh-Gharebagh, H Bashiri, N Mostoufi, ... Energy & fuels 21 (6), 3593-3598, 2007 | 58 | 2007 |
| Mean Activity Coefficients in the Ternary NaCI-NaN0,-H, O and NaBr-NaN0,-H, O Systems at 298.15 K A Haghtalabt, JH Vera Journal of Chemical and Engineering Data 36 (3), 332-340, 1991 | 58* | 1991 |
| The comprehensive kinetic modeling of the Fischer–Tropsch synthesis over Co@ Ru/γ-Al2O3 core–shell structure catalyst A Mosayebi, A Haghtalab Chemical Engineering Journal 259, 191-204, 2015 | 57 | 2015 |
| Experimental results and thermodynamic modeling of the partitioning of lysozyme, bovine serum albumin, and α-amylase in aqueous two-phase systems of PEG and (K2HPO4 or Na2SO4) A Haghtalab, B Mokhtarani, G Maurer Journal of Chemical & Engineering Data 48 (5), 1170-1177, 2003 | 56 | 2003 |
| Volumetric and viscometric behaviour of the binary systems of N-methyldiethanolamine and diethanolamine with 1-butyl-3-methylimidazolium acetate at various temperatures A Haghtalab, A Shojaeian The Journal of Chemical Thermodynamics 68, 128-137, 2014 | 54 | 2014 |
| Co@ Ru nanoparticle with core–shell structure supported over γ-Al2O3 for Fischer–Tropsch synthesis A Haghtalab, A Mosayebi international journal of hydrogen energy 39 (33), 18882-18893, 2014 | 53 | 2014 |
| An excess Gibbs energy model to study the phase behavior of aqueous two-phase systems of polyethylene glycol+ dextran A Haghtalab, MA Asadollahi Fluid Phase Equilibria 171 (1-2), 77-90, 2000 | 53 | 2000 |
