Suriya Phankosol scite author profile

Density of biodiesel is an important physical property of liquid fuel and biodiesel. A slight change in density can affect engine output power. In this work, density of a saturated, unsaturated fatty acid methyl ester or a biodiesel can be estimated from either (1) its number of carbon atoms (of fatty acid, z) and number of double bonds (n d ): ln ρ = −0.435 − 0.0025z + 85.98/T + 0.792z/T + 4.0 n d /T or (2) its saponification number (SN) and iodine value (IV): ln ρ = −0.427 − 10/SN + 83.38/T + 3168.95/(T × SN) + 11 IV/(T × SN), where T is absolute temperature. The predicted densities at different temperatures from both equations agree well with the reported literature values.

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Estimation of surface tension of fatty acid methyl ester and biodiesel at different temperatures

Phankosol

Sudaprasert

Lilitchan

et al. 2014

Fuel

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An Empirical Equation for Estimation of Kinematic Viscosity of Fatty Acid Methyl Esters and Biodiesel

Phankosol

Sudaprasert

Lilitchan

et al. 2015

J Americ Oil Chem Soc

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Gibbs energy additivity approaches to QSPR in modelling of isentropic compressibility of biodiesel

Krisanangkura¹,

Lilitchan

Phankosol

et al. 2018

Journal of Molecular Liquids

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Energy Additivity Approaches to QSPR Modeling in Estimation of Dynamic Viscosity of Fatty Acid Methyl Ester and Biodiesel

Krisnangkura

Aryusuk

Phankosol

et al. 2016

J Americ Oil Chem Soc

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Viscosity is an important physical property of fatty acid methyl esters (FAME) and biodiesel (mixture of FAMEs). In this work, quantitative structure–property relationship (QSPR) for estimation of dynamic viscosity of FAMEs and biodiesel is approached via the Gibbs energy additivity method. The Gibbs energy of dynamic viscous flow is simply derived from the sum of the Gibbs energy of kinematic viscous flow and Gibbs energy of volumetric expansion. The derived model can be used for estimation of dynamic viscosity of saturated and unsaturated FAMEs commonly found in nature. Also, the proposed model can be extended to a mixture of FAMEs or biodiesel as well as biodiesel blends. Thus, the dynamic viscosity of FAMEs as well as neat and blended biodiesels can be estimated by the same equation from the carbon number (z) and number of double bonds (nd) at different temperature (T). The average absolute deviation (AAD) values for saturated, unsaturated FAMEs, biodiesels, and biodiesel blends (at 20–100 °C) are approximately the same as the original model for estimation of kinematic viscosity.

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