Khalil Parvaneh scite author profile

In this study, the behaviors of viscosities of nine ionic liquids (ILs) over wide ranges of pressures and temperatures were determined. The investigated ILs belonged to the three imidazolium-based families of tetrafluoroborate, hexafluorophosphate, and bis[(trifluoromethyl)sulfonyl]imide. The two well-known cubic equations of state (EoS’s) of Peng–Robinson (PR) and the Soave–Redlich–Kwong (SRK), as well as the two more-sophisticated EoS’s of cubic plus association (CPA), and perturbed-chain statistical associating fluid theory (PC-SAFT), were each coupled with two well-known theoretical viscosity models, namely the friction theory and the free volume theory. Calculated results showed that the free volume model, coupled with PC-SAFT, has superior results in comparison to the free volume model with the CPA EoS. For the viscosity model of free volume, the studied cubic EoS’s did not give accurate results. When the friction model was used, the PC-SAFT EoS once more showed better accuracy than the CPA EoS; however, the CPA results in this model were quite close to that of the PC-SAFT, while the differences were great with the free volume model. One of the remarkable conclusions for the friction theory model was the unexpectedly reliable results that it gave with the cubic EoS’s. This suggests that when highly accurate results are not crucial, this combination can be the best choice because of the significantly greater simplicity of a cubic EoS over an association EoS.

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A general viscosity model for deep eutectic solvents: The free volume theory coupled with association equations of state

Haghbakhsh

Parvaneh

Raeissi

et al. 2018

Fluid Phase Equilibria

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High pressure viscosity modeling of pure alcohols based on classical and advanced equations of state

Parvaneh

Haghbakhsh

Rahimpour

2016

Journal of the Taiwan Institute of Chemical Engineers

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The friction theory for modeling the viscosities of deep eutectic solvents using the CPA and PC-SAFT equations of state

Haghbakhsh

Raeissi

Parvaneh

et al. 2018

Journal of Molecular Liquids

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Quantitative structure-property relationship for melting and freezing points of deep eutectic solvents

Khajeh

Shakourian‐Fard

Parvaneh

2021

Journal of Molecular Liquids

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Khalil Parvaneh

Viscosities of Pure Ionic Liquids Using Combinations of Free Volume Theory or Friction Theory with the Cubic, the Cubic Plus Association, and the Perturbed-Chain Statistical Associating Fluid Theory Equations of State at High Pressures

A general viscosity model for deep eutectic solvents: The free volume theory coupled with association equations of state

High pressure viscosity modeling of pure alcohols based on classical and advanced equations of state

The friction theory for modeling the viscosities of deep eutectic solvents using the CPA and PC-SAFT equations of state

Quantitative structure-property relationship for melting and freezing points of deep eutectic solvents

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