Liquid–Liquid Equilibria in Biodiesel Production

Rostami, Masoume; Raeissi, Sona; Mahmoodi, Maziyar; Nowroozi, Masoud

doi:10.1007/s11746-012-2144-5

Cited by 24 publications

(21 citation statements)

References 10 publications

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“…The formation of heterophases of FG under these circumstances comes as a surprise because earlier work indicates the solubility of FG is much higher than allowable maximum levels in ASTM or EN specifications. The earlier measurements [31,32] are based upon the results of titrations, and lack the sensitivity and specificity needed for definitive results at levels between 0.000 and 0.020%. According to a US DOE survey of 67 commercially available B100s, these are levels that can be found in the US [43].…”

Section: Equilibrium Solubility Of Fg and Liquid Glycerin In Famementioning

confidence: 99%

“…Published values for the solubility of FG in purified B100 are scarce, despite the recognized importance of solubility limitations in the separation/purification processes. Two publications report actual measurements in B100 using titration methods, and indicate a solubility of 0.2% at 20 °C [31] and less than 0.15% [32] or up to 10 times above the current international limits of 0.020% [5,6]. These reported high solubilities can encourage the expectation of a homogenously distributed dissolved FG content during sampling for routine quality checks.…”

Section: Introductionmentioning

confidence: 99%

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Bias and Imprecision in the Determination of Free Glycerin in Biodiesel: The Unexpected Role of Limitations in Solubility

Heiden¹,

Schober

Mittelbach

2016

J Americ Oil Chem Soc

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Abbreviations 0%DFAME saturated with moisture at 40 °C 20% D 0%D FAME diluted to 20% v/v DDMF (100%D) 40%D0%D FAME diluted to 40% v/v DDMF (100%D) 60%D0%D FAME diluted to 60% v/v to DDMF (100%D) 80%D 0%D FAME diluted with 80% v/v to DDMF100%D 100% DDMF, moisture <50 ppm 95CI 95% Confidence interval 95CI1 95% Confidence interval, n = 1 95CI3 95% Confidence interval, n = 3 AG Concentration of FG after agitation AGQM Arbeitsgemeinschaft Qualitätsmanagement Biodiesel, e.V. ASTM American Society for Testing and Materials ASUB An approximately 100.0 mg subsample of B100 ASUBINT Time interval in seconds between ~100.0 mg subsamples B100 Commercial Grade of FAME biodiesel BSTFA Bis-(trimethylsilyl)trifluoroacetamide CDC US Center for Disease Control CEN Comité Européen de Normalisation-European Committee for Standardization CV Coefficient of variation DDMF Distilled, dry, methanol free EI Electron ionization EN European normalization EU European Union FAME Fatty acid methyl esters: here refers to aAbstract Residual free glycerin (FG) is a critical marker of fatty acid methyl ester (biodiesel) fuel quality. Yet, routine determinations by standard methods display excessive imprecision, and the uncertainties undermine confidence in the data. Various degrees of agitation are used here to evaluate the possibility of heterophase formation as a contributor to imprecision and potential bias. Statistical markers from the analysis of 13 biodiesel samples reveal that seven contain unexpected heterophases, which, due to settling, cause underestimates of 15-68%. Agitation alone resuspends heterophases for brief periods, easing potential biases, but also increases imprecision. A promising new sample pretreatment is presented, which reduces the deleterious effects of heterophases. Solubility limitations are explored as possible contributing factors, and measurements made at 23 °C in purified soy FAME reveal an equilibrium solubility which is more than 80% below previously published estimates. Strong interactions of liquid FG with small amounts of moisture reduce solubility to below international quality limits, while interactions of initially dissolved forms of moisture and FG produce bias-inducing heterophases at 0.02% FG. The unexpected low solubility of FG, exacerbated by interactions with impurities, is seen as an important contributor to underestimates and imprecision, and a strong influencing factor on the fate of residual FG in commercial biodiesel fuels.

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Section: Equilibrium Solubility Of Fg and Liquid Glycerin In Famementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bias and Imprecision in the Determination of Free Glycerin in Biodiesel: The Unexpected Role of Limitations in Solubility

Heiden¹,

Schober

Mittelbach

2016

J Americ Oil Chem Soc

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“…9−14 This mixture, which also contains significant amounts of unreacted alcohol, is then taken to the separation and purification units. 15,16 In the separation section, glycerol and biodiesel are usually separated by decantation, and we can distinguish between two phases: one glycerol-rich phase and one ester-rich phase, noting that unreacted alcohol is distributed in both phases. 17 One important characteristic of the separation section that needs investigation is the extent of the miscibility between biodiesel, glycerol, and the unreacted alcohol.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, liquid−liquid equilibrium experimental data were correlated with fitted NRTL, UNIQUAC, and UNIFAC models to produce mean square deviations in composition of 1.34% for the NRTL, 1.34% for the UNIQUAC, and 4.13% for the UNIFAC model. Rostami et al 16 carried out the study of the liquid−liquid equilibrium of ternary systems involving sunflower/canola biodiesel−glycerol−methanol at 293.15, 303.15, and 313.15 K. They reported that the region of immiscibility decreased with increasing temperature and concluded that losses of biodiesel during purification were small if this unit is operated at low temperatures. They used the UNIQUAC model with parameters fitted to experimental data to predict the behavior of the binary and ternary systems, where the binary interaction coefficients were further optimized for each system to increase accuracy.…”

Section: Introductionmentioning

confidence: 99%

Experimental Data and Phase Equilibrium Modeling in Ternary and Pseudoquaternary Systems of Sunflower Oil for Biodiesel Production

et al. 2019

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Biodiesel production consists of several processes, the reaction stage being the most important. However, after reaction, the biodiesel product undergoes separation involving an aqueous phase, hence, the need for accurate information on liquid−liquid equilibrium (LLE) parameters of mixtures formed by biodiesel, alcohol, glycerol, and the aqueous phase. We here performed experiments on ternary and pseudoquaternary systems of sunflower biodiesel to gather data to estimate binary interaction parameters for LLE using the UNIQUAC model. Our results showed that temperature had essentially no effect on ternary systems, with a small reduction of the immiscibility region at 318.15 K. As for the pseudoquaternary systems, we observed that by increasing the amount of the aqueous phase from 50 to 75%, the region of phase separation increased, and the solubility of biodiesel in the glycerol-rich phase decreased, with no significant change in the binodal curves and tie-lines. We then successfully estimated the binary interaction parameters and observed that very good agreement was obtained between the experimental data and the calculated values using the UNIQUAC model, with maximum deviations of about 0.25%. We thus firmly believe that such parameters can be safely used, e.g., to design and efficiently operate separation processes for systems like the ones investigated in this article.

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“…Many experimental studies of the liquid‐liquid equilibrium (LLE) are carried out together with thermodynamic modeling. Activity coefficient models such as UNIFAC, UNIQUAC, and NRTL have been successfully applied to liquid‐liquid systems to find the relationships between experimental data . In this study, an experimental study and thermodynamic modeling were performed on a ternary‐component system of glycerin + methanol + organic solvent (toluene, petroleum ether, and n ‐butanol).…”

Section: Introductionmentioning

confidence: 99%

Experimental Investigation and Thermodynamic Modeling of Glycerin/Methanol/Organic Solvent Systems

2019

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Glycerin is an important by-product in biodiesel production. To increase its quality to be suitable for use it in other operations, e.g., the pharmaceutical industry, it needs to be purified. Therefore, the purification of glycerin by liquid-liquid extraction of methanol using different solvents was investigated. It was shown that, in terms of separation, petroleum ether was more effective than toluene and toluene was more effective than n-butanol. In addition to the experimental investigations, the NRTL and UNIQUAC thermodynamic models were used to predict the compositions of ternary mixtures of glycerin + methanol + organic solvent in glycerin-rich and organic solvent-rich phases. The results showed the high accuracy of the presented models and their consistency with the measured data.

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Liquid–Liquid Equilibria in Biodiesel Production

Cited by 24 publications

References 10 publications

Bias and Imprecision in the Determination of Free Glycerin in Biodiesel: The Unexpected Role of Limitations in Solubility

Bias and Imprecision in the Determination of Free Glycerin in Biodiesel: The Unexpected Role of Limitations in Solubility

Experimental Data and Phase Equilibrium Modeling in Ternary and Pseudoquaternary Systems of Sunflower Oil for Biodiesel Production

Experimental Investigation and Thermodynamic Modeling of Glycerin/Methanol/Organic Solvent Systems

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