Rafael M. Matricarde Falleiro scite author profile

Boiling points of monocaprylin, monocaprin, dicaprylin, and dicaprin were measured at low pressures (1.0 kPa up to 13.2 kPa) using a differential scanning calorimetry technique and correlated by empirical equations (Clapeyron and Antoine). Parameters of the Design Institute for Physical Property Research (DIPPR) equations were also regressed considering calculated values of normal boiling points and critical points using the Marrero and Gani method. Heats of vaporization were estimated using the Clausius–Clapeyron relation with the inclusion of a correction term to account for deviations at higher pressures. Boiling points of α-, β-, δ-, and γ-tocopherol were measured at 1.1 kPa. A DIPPR equation was also proposed for estimating the vapor pressure of this class of compounds, and an equation for predicting heat of vaporization was derived. Data presented in this work can be valuable for process design in the edible oil industry and for development of biodiesel purification steps.

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Vapor pressure data for fatty acids obtained using an adaptation of the DSC technique

Falleiro

Silva

Meirelles

et al. 2012

Thermochimica Acta

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Determination of the vapor pressure of ethyl esters by Differential Scanning Calorimetry

Silva

Falleiro

Meirelles

et al. 2011

The Journal of Chemical Thermodynamics

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Experimental determination of the (vapor + liquid) equilibrium data of binary mixtures of fatty acids by differential scanning calorimetry

Falleiro

Meirelles

Krähenbühl

2010

The Journal of Chemical Thermodynamics

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