Pressure and temperature functionality of paraffin-carbon dioxide interfacial tension using genetic programming and dimension analysis (GPDA) method

Created by W.Langdon from gp-bibliography.bib Revision:1.3872

@Article{Khadem:2014:JNGSE,
  author =       "Sayyed Ahmad Khadem and Iman Raoofi Jahromi and 
                 Ali Zolghadr and Shahab Ayatollahi",
  title =        "Pressure and temperature functionality of
                 paraffin-carbon dioxide interfacial tension using
                 genetic programming and dimension analysis (GPDA)
                 method",
  journal =      "Journal of Natural Gas Science and Engineering",
  volume =       "20",
  pages =        "407--413",
  year =         "2014",
  ISSN =         "1875-5100",
  DOI =          "doi:10.1016/j.jngse.2014.07.010",
  URL =          "http://www.sciencedirect.com/science/article/pii/S1875510014001978",
  abstract =     "A precise semi-empirical correlation for the
                 calculation of interfacial tension (IFT) between the
                 carbon dioxide and paraffin group to be used in an
                 enhanced oil recovery process and the chemical industry
                 is introduced. Genetic programming and dimension
                 analysis (GPDA) are combined to create a correlation
                 for the calculation of the equilibrium interfacial
                 tension of the carbon dioxide and paraffin group, based
                 on the explicit functionality of the pressure and
                 temperature. The parameters of the correlation consist
                 of critical temperature, critical pressure, density of
                 paraffin at normal temperature, and diffusion
                 coefficients. The pool of experimental data for
                 developing the correlation consists of 400 randomly
                 gathered data points. To check prediction capability of
                 the correlation 200 data points which are not
                 participated in developing part are used. The average
                 absolute percent deviation (AAD percent) for comparing
                 the results with the experimental data is found to be
                 5percent, which demonstrates the accuracy of the
                 presented correlation.",
  keywords =     "genetic algorithms, genetic programming, Interfacial
                 tension, Enhanced oil recovery, Genetic programing,
                 Dimensionless analysis, Average absolute percent
                 deviation, Carbon dioxide",
}

Genetic Programming entries for Sayyed Ahmad Khadem Iman Raoofi Jahromi Ali Zolghadr Shahab Ayatollahi

Citations