In recent years,
fuel modifications, such as the production
of ultralow sulfur diesel, have been mandated by international agencies
to limit gaseous sulfur emissions and reduce atmospheric pollution.
In this study, raw diesel fuel was subjected to sequential (1) high
shear mixing-assisted oxidative desulfurization and (2) adsorptive
desulfurization. A detailed study on the isotherm and thermodynamics
of sulfur removal was carried out using powdered activated carbon
(PAC) and powdered alumina in batch adsorption experiments. Results
showed that sulfur adsorption by PAC and powdered alumina followed
the Langmuir (R
2 = 0.9020) and the Freundlich
(R
2 = 0.8626) isotherm models, respectively.
Adsorption of sulfur by powdered alumina was controlled solely by
chemisorption, whereas adsorption by PAC was controlled by a combination
of a chemical reaction and diffusion process. For both powdered alumina
and PAC, the positive values of the enthalpy of activation (ΔH) indicate that the adsorption process was endothermic.
Negative ΔS and increasing ΔG values with increase in temperature indicates that lower temperatures
favored sulfur adsorption by powdered alumina, whereas positive ΔS and decreasing ΔG values with increase
in temperature indicate that sulfur adsorption by PAC was more favorable
at high temperature.
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