Novel deep eutectic solvents and their application in the liquid-liquid extraction of aromatic compounds / Mukhtar A. Kareem Aljadri
The thermal cracking of naphtha is a major source of ethylene. It supplies more than half of the demand on ethylene to the industry. Naphtha contains in some cases high concentrations of aromatic hydrocarbons. They were found to be cracking-resistants and thus their existence in naphtha imposes n...
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| Format: | Thesis |
| Published: |
2013
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| Online Access: | http://studentsrepo.um.edu.my/8242/4/Final_Thesis_Mukhtar_A._Kareem_KHA_090009.pdf http://studentsrepo.um.edu.my/8242/ |
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| Summary: | The thermal cracking of naphtha is a major source of ethylene. It supplies more than
half of the demand on ethylene to the industry. Naphtha contains in some cases high
concentrations of aromatic hydrocarbons. They were found to be cracking-resistants and
thus their existence in naphtha imposes negative effects on the overall process of
ethylene production. Their removal from naphtha was achieved by liquid-liquid
extraction using sulfolane as extractant. The extraction by sulfolane is not efficient at
low concentrations of aromatics. Additionally, sulfolane is applied at high temperatures.
Ionic liquids were proposed by different researches to replace sulfolane as extractants to
achieve decent extraction for low concentrations of aromatics. However, their
application is still limited at elevated temperatures only. Deep eutectic solvents (DESs)
are a new group of ionic liquids which have added advantages. In this work, DESs are
proposed as extractants for the above mentioned process. They are synthesized using
different salts and hydrogen bond donors. Some DESs have viscosities of less than
0.0686 Pa.s at room temperature which allows them to be easily handled. Sixteen DESs
out of twenty one synthesized in this work were applied in the extraction. Different
systems of aromatics + aliphatics + DESs were studied at various operating conditions.
For a ternary system of benzene + hexane + (methyltriphenylphosphonium
bromide:ethylene glycol), a high distribution coefficient of more than 2 was achieved in
one extraction experiments, with selectivity as high as 98.3 in another experiment.
Other ternary systems studied were toluene + heptane + (tetrbutylphosphonium
bromide:ethylene glycol), toluene + heptane + (tetrabutylphosphonium
bromide:sulfolane), toluene + heptane + (ethyltriphenylphosphonium iodide:ethylene
glycol) and toluene + heptane + (ethyltriphenylphosphonium iodide:sulfolane). The
distribution coefficients ranged generally between 0.02 and 0.95 while selectivites
ranged generally between 1.5 and 65.8. The experimental results were ascertained by two different correlations methods. The regression coefficients were more than 0.9 for
many cases. The non-random two liquids (NRTL) activity coefficients model was
applied to correlate the experimental data and to estimate the activity coefficients.
Calculated and experimental data show very good agreement and the error criterion is
less than 10-4. This work shows that DESs have the advantage over conventional
extraction solvents for separation of aromatic hydrocarbons due to their ease of
synthesis, tunable physical properties and high selectivities in extraction experiments. |
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