Critical properties and normal boiling temperature of ionic liquids. Update and a new consistency test JO Valderrama, LA Forero, RE Rojas Industrial & engineering chemistry research 51 (22), 7838-7844, 2012 | 186 | 2012 |
Extension of a group contribution method to estimate the critical properties of ionic liquids of high molecular mass JO Valderrama, LA Forero, RE Rojas Industrial & Engineering Chemistry Research 54 (13), 3480-3487, 2015 | 62 | 2015 |
Wagner liquid–vapour pressure equation constants from a simple methodology LA Forero G, JA Velásquez J The Journal of Chemical Thermodynamics 43 (8), 1235-1251, 2011 | 57 | 2011 |
An analytical expression for the vapor pressure of ionic liquids based on an equation of state JO Valderrama, LA Forero Fluid phase equilibria 317, 77-83, 2012 | 35 | 2012 |
A generalized cubic equation of state for non-polar and polar substances LA Forero, JA Velásquez Fluid Phase Equilibria 418, 74-87, 2016 | 31 | 2016 |
The Patel–Teja and the Peng–Robinson EoSs performance when Soave alpha function is replaced by an exponential function LA Forero G, JA Velásquez J Fluid Phase Equilibria 332, 55-76, 2012 | 24 | 2012 |
A new generalized Henry-Setschenow equation for predicting the solubility of air gases (oxygen, nitrogen and argon) in seawater and saline solutions JO Valderrama, RA Campusano, LA Forero Journal of Molecular Liquids 222, 1218-1227, 2016 | 22 | 2016 |
A method to estimate the Patel− Teja equation of state constants LA Forero, JA Velásquez Journal of Chemical & Engineering Data 55 (11), 5094-5100, 2010 | 22 | 2010 |
Correlation and prediction of thermal conductivity using the Redlich–Kwong cubic equation of state and the geometric similitude concept for pure substances and mixtures LF Cardona, LA Forero, JA Velásquez Industrial & Engineering Chemistry Research 58 (51), 23417-23437, 2019 | 17 | 2019 |
A modified Patel–Teja cubic equation of state: Part I–Generalized model for gases and hydrocarbons LA Forero G, JA Velásquez J Fluid Phase Equilibria 342, 8-22, 2013 | 17 | 2013 |
Critical properties of metal-containing ionic liquids JO Valderrama, LA Forero, RE Rojas Industrial & Engineering Chemistry Research 58 (17), 7332-7340, 2019 | 12 | 2019 |
A modified Patel-Teja cubic equation of state. Part II: Parameters for polar substances and its mixtures LA Forero, JA Velasquez Fluid Phase Equilibria 364, 75-87, 2014 | 11 | 2014 |
Modelamiento de la Viscosidad con Base en una Ecuación Cúbica μTP del Tipo Peng-Robinson LF Cardona, LA Forero, JA Velásquez Información tecnológica 30 (4), 259-272, 2019 | 10 | 2019 |
Prediction of phase equilibria, density, speed of sound and viscosity of 2-alkoxyethanols mixtures: A comparison study between SAFT type EoSs and a modified PR EoS JA Velásquez, JP Hernández, LA Forero, LF Cardona Fluid Phase Equilibria 563, 113570, 2023 | 7 | 2023 |
Representación simultánea del equilibrio líquido-vapor, el volumen molar y la entalpía de exceso de mezclas complejas mediante una ecuación de estado tipo Peng-Robinson LA Forero, JA Velásquez Información tecnológica 30 (6), 21-34, 2019 | 7 | 2019 |
Modeling the liquid-liquid equilibria of polar aprotic solvents/alkanes type mixtures using a modified PR EoS and the Huron-Vidal mixing rules G Forero, A Luis, J Velasquez, A Jorge JOURNAL OF MOLECULAR LIQUIDS 292, 2019 | 7 | 2019 |
A group contribution method to model the thermal conductivity of pure substances LF Cardona, LA Forero, JA Velásquez Fluid Phase Equilibria 564, 113592, 2023 | 6 | 2023 |
Modelling low pressure LLE and VLE of methanol/alkane mixtures with a modified Peng-Robinson EoS and the Huron-Vidal mixing rules JP Hernández, LA Forero, JA Velásquez Fluid Phase Equilibria 546, 113123, 2021 | 6 | 2021 |
A simple and generalized model to represent the vapor-liquid equilibria and the liquid-molar-volume of alcohol-alkane binary mixtures LA Forero, JA Velasquez Fluid Phase Equilibria 430, 112-134, 2016 | 6 | 2016 |
Experimental-modeling study of phase equilibria, densities, and viscosities for the propanenitrile–decane mixture at low pressure ML Correa, LF Cardona, JA Velasquez, LA Forero Journal of Chemical & Engineering Data 66 (2), 1089-1100, 2021 | 5 | 2021 |