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Title Extractive desulfurization of liquid fuel using diamineterminated polyethylene glycol as a very low vapour pressure and green molecular solvent
Type JournalPaper
Keywords desulfurization, benzotiophenic compounds, liquid fuel, extraction, diamine-terminated oligomeric polyethylene glycol, 4,7,10-trioxatridecane-1,13-diamine
Abstract Removal of sulfur compounds from liquid fuel is one of the important issues in the field of energy and environment. Among the available methods, extractive desulfurization (EDS) is of great interest due to its convenient operating conditions. In this study, EDS performance of 4,7,10-trioxatridecane-1,13-diamine (TTD), a very low vapour pressure diamineterminated oligomeric polyethylene glycol (PEG), was studied. Effect of the influencing factors, as well as multiple extraction, mutual solubility, reusability and regeneration of TTD were investigated. Results showed that the TTD/fuel volume ratio of 0.5 could extract benzothiophene, dibenzothiophene and dimethyl dibenzothiophene with the efficiencies 67%, 74% and 53%, respectively, in less than 1 min at ambient temperature. The distribution coefficient (KN) value for removal of dibenzothiophene by TTD was 3.66 higher than that of PEG, and it is similar to KN values (approx. 4) for polyethylene glycol dimethyl ether (as a modified PEG) and Lewis acidcontaining ionic liquids. It was observed that spent TTD after five cycles could be regenerated using the back-extraction method. Also, deep EDS was achievable after three times extraction using fresh TTD. Finally, the extraction mechanism was studied using 1H-NMR. These observations, as well as very low vapour pressure and insignificant dependency of TTD on the initial S-concentration of fuel and temperature, make this extractant to be introduced as a valuable option for green and effective EDS.
Researchers Mohammad Ali Zolfigol (Fifth Researcher), Meysam Yarie (Fourth Researcher), Fatemeh Rafiei Moghadam (First Researcher), Saeid Azizian (Third Researcher), Effat Kianpour (Second Researcher)