Parametric survey on the sweetening process; Introduction of new process

Volume 2, Issue 1, February 2017     |     PP. 1-6      |     PDF (353 K)    |     Pub. Date: March 1, 2017
DOI:    295 Downloads     7088 Views  

Author(s)

Seyyedeh Media Jad baba, Department of Chemical Engineering, Science and Research branch, Islamic Azad University, Sirjan, Iran; Department of Chemical Engineering, Sirjan branch, Islamic Azad University, Sirjan, Iran.
Farshad Farahbod, Corresponding Author::Department of Chemical Engineering, Firoozabad Branch, Islamic Azad University, Firoozabad, Iran. Tel.: +987126224523; fax: +987126224402. P.O. Box: 74715-117.

Abstract
Desulphurization of crude oil is an important process used in a petroleum refinery to reduce the sulphur concentration and production of fuel products such as gasoline, jet fuel, kerosene, diesel and heating oil. The operating and geometrical parameters are evaluated in this paper. Therefore, the gained results can be interesting for related industries and can be applicable in process optimization. Results show the lowest amount of index in process is obtained at height higher than 6 cm, between 7 cm and 8 cm, for the light and mid-range oil, respectively.

Keywords
Nano; Sweetening; Oil; Bed; Diameter; Catalyst.

Cite this paper
Seyyedeh Media Jad baba, Farshad Farahbod, Parametric survey on the sweetening process; Introduction of new process , SCIREA Journal of Chemistry. Volume 2, Issue 1, February 2017 | PP. 1-6.

References

[ 1 ] Yuxiao Niu, Mingyang Xing, Baozhu Tian, Jinlong Zhang, 2012, ‘’Improving the visible light photocatalytic activity of nano-sized titanium dioxide via the synergistic effects between sulfur doping and sulfation, ’’Applied Catalysis B: Environmen., 115–116 (5) pp. 253-260.
[ 2 ] Rao Mumin, Song Xiangyun, Cairns Elton J., 2012, ‘’Nano-carbon/sulfur composite cathode materials with carbon nanofiber as electrical conductor for advanced secondary lithium/sulfur cells,’’ J. Power Source., 205 (1), pp. 474-478.
[ 3 ] Zhang Yongguang, Zhao Yan, Konarov Aishuak, Gosselink Denise, Soboleski Hayden Greentree, Chen P., 2013, ‘’A novel nano-sulfur/polypyrrole/graphene nanocomposite cathode with a dual-layered structure for lithium rechargeable batteries,’’ J. Power Source., 241 (1), pp. 517-521.
[ 4 ] Hosseinkhani M., Montazer M., Eskandarnejad S., Rahimi M.K., 2012, ‘’Simultaneous in situ synthesis of nano silver and wool fiber fineness enhancement using sulphur based reducing agents, ’’Colloids and Surfaces A: Physicochem. Eng. Aspect., 415 (5), pp. 431-438.
[ 5 ] Christoforidis Konstantinos C., Figueroa Santiago J.A., Fernández-García Marcos, 2012, ‘’Iron–sulfur codoped TiO2 anatase nano-materials: UV and sunlight activity for toluene degradation, ’’Applied Catalysis B: Environment., 117–118 (18), pp. 310-316.
[ 6 ] Balouria Vishal, Kumar Arvind, Samanta S., Singh A., Debnath A.K., Mahajan Aman, Bedi R.K., Aswal D.K., Gupta S.K., 2013, ‘’Nano-crystalline Fe2O3 thin films for ppm level detection of H2S,’’Sensors Actuators B: Chemical, 181, pp. 471-478.
[ 7 ] Habibi R., Rashidi A. M., Towfighi Daryan J., Alizadeh A., 2010,"study of the rod –like and spherical nano ZnO morphology on H2s removal from natural gas". Appl. Surf. Sci., 257, pp. 434- 439.
[ 8 ] Novochimskii II., Song CH., Ma X., Liu X., Shore L., Lampert J., Farrauto R. J., 2004, "Low temperature H2S removal from steam containing gas mixtures with ZnO for fuel cell application. 1. ZnO particles and extrudates". Ene. Fuel. , 18, pp. 576-583.
[ 9 ] Habibi R., Towfighi Daryan J., Rashidi A.M., 2009, Shape and size-controlled fabrication of ZnO nanostructures using noveltemplates, J. Exp. Nanosci. 4 (1) 35-45.
[ 10 ] Farahbod Farshad, Bagheri Narges, Madadpour Fereshteh, 2013, Effect of Solution Content ZnO Nanoparticles on Thermal Stability of Poly Vinyl Chloride, Journal of Nanotechnology in Engineerin and Medicine. 4 / 021002-1.