8.  Mathematical Model for the Estimation of Mass Transfer Coefficients at the Extraction of Thiols with Alkaline Solutions in Packed Columns

Authors: Claudia-Irina Koncsag and Alina Barbulescu


Abstract:

The mathematical model for the estimation of mass transfer coefficients at the extraction of thiols from gasoline with alkaline solutions was established by processing the data proceeding from the laboratory experiment and then from a pilot plant. Three sets of data were obtained, one for each case: the laboratory column with dispersion, the laboratory column equipped with a low specific area packing (ap= 60 m2/m3) and a great porosity (ε=0.98) and one in a micropilot size column equipped with Sulzer packing having a much larger specific area (ap= 340m2/m3) and similar porosity (ε=0.96). For each installation, three different thiols at three different NaOH concentrations were tested. The experimental data were statistically analysed and processed using the programs SPSS and CurveExpert. The emerging mathematical model- applied separately to each thiol- allows the estimation of overall mass transfer coefficients, taking into account the following parameters: the dispersed phase velocity, the concentration of NaOH solution, the specific area and the porosity of the packing. The existing model could serve in the oil processing, at dimensioning the alkaline refining of petroleum fractions and also, at the simulation of the said extraction columns.


Keywords: liquid- liquid extraction, mass transfer, modelling, packed columns

PDF Version

 
 
Issues

Articles in Press
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2016
Volume 61(75), Issue 2, 2016
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2016
Volume 61(75), Issue 1, 2016
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2015
Volume 60(74), Issue 2, 2015
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2015
Volume 60(74), Issue 1, 2015
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2014
Volume 59(73), Issue 2, 2014
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2014
Volume 59(73), Issue 1, 2014
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2013
Volume 58(72), Issue 2, 2013
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2013
Volume 58(72), Issue 1, 2013
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2012
Volume 57(71), Issue 2, 2012
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2012
Volume 57(71), Issue 1, 2012
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2011
Volume 56(70), Issue 2, 2011
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2011
Volume 56(70), Issue 1, 2011
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2010
Volume 55(69), Issue 2, 2010
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2010
Volume 55(69), Issue 1, 2010
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2009
Volume 54(68), Issue 2, 2009
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2009
Volume 54(68), Issue 1, 2009
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2008
Volume 53(67), Issue 1 - 2, 2008
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2007
Volume 52(66), Issue 1 - 2, 2007
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2006
Volume 51(65), Item 1 - 2, 2006
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)


2005
Volume 50(64), Item 1 - 2, 2005
Chem. Bull. `POLITEHNICA` Univ. (Timisoara)



   
 
 
  © 2024 Industrial Chemistry and Environmental Engineering Faculty