Ultrasound-Assisted Oxidative Desulfurization of Diesel

Main Article Content

Niran K. Ibrahim, Prof. Dr.
Walla A. Noori, Dr
Jaffar M. Khasbag, MSc student

Abstract

Due to the dramatic environmental impact of sulfur emissions associated with the exhaust of diesel engines, last environmental regulations for ultra-low-sulfur diesel require a very deep desulfurization (up to 15 ppm), which cannot be met by the conventional hydrodesulfurization units alone. The proposed method involves a batch ultrasound-assisted oxidative desulfurization (UAODS) of a previously hydrotreated diesel (containing 480 ppm sulfur) so as to convert the residual sulfur-bearing compounds into their corresponding highly polar oxides, which can be eliminated easily by extraction with a certain highly polar solvent. The oxidizing system utilized was H2O2 as an oxidant, CH3COOH as a promoter, with FeSO4 as a catalyst; whereas acetonitrile was used as extractant. The major influential parameters related to UAODS process have been investigated, namely: ratio of oxidant/fuel, ratio of the promoter/oxidant, dose of catalyst, reaction temperature, and intensity of ultrasonic waves. Kinetics of the reaction has been also studied; it was observed that the UAODS of diesel fuels fitted pseudo-first-order kinetics under the best experimental conditions, whereas values of the apparent rate constant and activation energy were 0.373 min-1 and 24 KJ/mol, respectively. The oxidation treatment, in combination with ultrasonic irradiation, revealed a synergistic effect for diesel desulfurization. The experimental results showed that sulfur removal efficiency could amount to 98% at mild operating conditions (70 C and 1 bar). This indicates that the process is efficient and promising for the production of ultra-low-sulfur diesel fuels.


 

Article Details

How to Cite
“Ultrasound-Assisted Oxidative Desulfurization of Diesel” (2016) Journal of Engineering, 22(11), pp. 55–67. doi:10.31026/j.eng.2016.11.04.
Section
Articles

How to Cite

“Ultrasound-Assisted Oxidative Desulfurization of Diesel” (2016) Journal of Engineering, 22(11), pp. 55–67. doi:10.31026/j.eng.2016.11.04.

Publication Dates

Similar Articles

You may also start an advanced similarity search for this article.