Authors: Lívia B. Meirelles, Erika C. A. N. Chrisman, Flávia B. de Andrade, Lilian C. M. de Oliveira

Abstract:

True Boiling Point distillation (TBP) is one of the most common experimental techniques for the determination of petroleum properties. This curve provides information about the performance of petroleum in terms of its cuts. The experiment is performed in a few days. Techniques are used to determine the properties faster with a software that calculates the distillation curve when a little information about crude oil is known. In order to evaluate the accuracy of distillation curve prediction, eight points of the TBP curve and specific gravity curve (348 K and 523 K) were inserted into the HYSYS Oil Manager, and the extended curve was evaluated up to 748 K. The methods were able to predict the curve with the accuracy of 0.6%-9.2% error (Software X ASTM), 0.2%-5.1% error (Software X Spaltrohr).

Keywords: Distillation curve, petroleum distillation, simulation, true boiling point curve.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1129582

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References:

[1] American Society of Testing and Materials, 1999b. ASTM D 5236: Distillation of Heavy Hydrocarbon Mixtures (Vacuum Potstill Method). (Annual Handbook of ASTM Standards, 2002).
[2] American Society of Testing and Materials. ASTM D 4052: Standard Test Method for Density, Relative Density, and API Gravity of Liquids by Digital Density Meter. (Annual Handbook of ASTM Standards, 2015).
[3] M.S. Lopes, R. Maciel Filho, M.R. Maciel, L.C. Medina: Extension of the TBP curve of petroleum using the correlation DESTMOL. Procedia Engineering, Vol. 42 (2012), p. 726.
[4] M.L.S.P Marques: Microdestilação Caracterização de petróleo–alternativa para avaliação de petróleos. Rio de Janeiro, Federal University of Rio de Janeiro, BR, (2011).
[5] G. Argirov, S. Ivanov, G. Cholakov: Estimation of crude oil TBP from crude viscosity. Fuel, Vol. 97 (2012), p. 358.
[6] M. Khanmohammadi, A.B. Garmarudi, M. de La Guardia: Characterization of petroleum based products by infrared spectroscopy and chemometrics. Trends in Analytical Chemistry, Vol. 35, (2012).
[7] J.J. Espada, S. Fernández, L. Velasco, B. Coto: Evaluation of different methodologies to determine the n-paraffin distribution of petroleum fractions. Fuel, Vol. 109 (20013), p. 470.
[8] J.M.V. Patrinos, R.V. Román, E.M. Corona, J.A.I. Méndez, E. Q. Pérez: Computer aided molecular design for undefined petroleum fractions. Fluid Phase Equilibria, Vol.: 390 (2015), p. 14.
[9] L.Z. Liñan, N.M.N. Lima, M.R.W. Maciel, R. Maciel Filho, L.C. Medina, M. Embiruçu: Correlation for predicting the molecular weight of Brazilian petroleum residues and cuts: An application for the simulation of a molecular distillation process. Journal of Petroleum Science and Engineering, Vol. 78 (2011), p. 78.
[10] American Society of Testing and Materials, ASTM D 2892: Distillation of Crude Petroleum (15-Theoretical Plate Column). (Annual Handbook of ASTM Standards, 2015).