2019
DOI: 10.1021/acs.jced.8b01153
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A Group Contribution Equation of State for Biorefineries. GCA-EOS Extension to Bioether Fuels and Their Mixtures with n-Alkanes

Abstract: Biomass processing routes involve mixtures of organo-oxygenated compounds of almost all the organic families. Typically, these mixtures are highly nonideal, and models to describe their phase behavior should take into account specific association interactions. In this work, the group contribution with association equation of state (GCA-EOS) is applied to the thermodynamic modeling of mixtures comprising ethers and alkanes. A databank of about 2800 experimental data points of phase equilibria and excess enthalp… Show more

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Cited by 6 publications
(10 citation statements)
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“…In this case, the excess enthalpy increases with the ether alkyl chain, though the model calculations follow the experimental data qualitatively. Regarding this effect of increasing the alkyl chain, it is worth noting that alkane + ether mixtures effectively exhibit lower excess enthalpies as alkyl groups are added to the mixture, behavior that the GCA-EOS describes accurately . Hence, an invariant experimental trend, as the one depicted in Figure a, is difficult to sustain and also to predict with a group-contribution approach.…”
Section: Resultsmentioning
confidence: 99%
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“…In this case, the excess enthalpy increases with the ether alkyl chain, though the model calculations follow the experimental data qualitatively. Regarding this effect of increasing the alkyl chain, it is worth noting that alkane + ether mixtures effectively exhibit lower excess enthalpies as alkyl groups are added to the mixture, behavior that the GCA-EOS describes accurately . Hence, an invariant experimental trend, as the one depicted in Figure a, is difficult to sustain and also to predict with a group-contribution approach.…”
Section: Resultsmentioning
confidence: 99%
“…Model Parametrization. The GCA-EOS table of parameters already includes the ether 26 and alcohol 20 groups, as well as their interactions with the alkyl groups, either to represent their own carbon backbone chain or their mixtures with hydrocarbons. Therefore, in this work, the only degrees of freedom to model mixtures comprising ethers and alcohols are the binary interaction parameters among them.…”
Section: Thermodynamic Modelmentioning
confidence: 99%
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“…[53], [192], [201], [204]- [208] 10 [21], [209]- [217] 12 [18], [21], [22], [112], [166], [194], [218]- [223] 1 [224] Monte Carlo…”
mentioning
confidence: 99%