Pengaruh medan elektromagnetik terhadap densitas dan vikositas pada vacuum residue

Akbar Ismi Aziz Pramito; Sri  Haryati; Muhammad Djoni  Bustan

doi:10.22146/jrekpros.43599

Research article

Vol 13 No 2 (2019): Volume 13, Number 2, 2019

Pengaruh medan elektromagnetik terhadap densitas dan vikositas pada vacuum residue

Akbar Ismi Aziz Pramito⁺⁻
Sri Haryati⁺⁻
Muhammad Djoni Bustan⁺⁻

pdf (Bahasa Indonesia)

DOI: https://doi.org/10.22146/jrekpros.43599
Submitted: November 16, 2023
Published: December 31, 2019

Abstract

This study tested the effect of electromagnetic field on density and viscosity of vacuum residue from PT. PERTAMINA Refinery Unit III Plaju. The study was conducted using a batch reactor equipped with electromagnetic. The fixed variable in this study is the vacuum residue mass and cracking time, while the variables which are varied are reaction temperature and electromagnetic field. The study was conducted to see the effect of temperatures ranging from 100, 200, 300 and 400^oC, and the use of electromagnets with electric currents of 0A, 5A, 10A, 15A and 20A on the density and viscosity of vacuum residue. The experiment compared the effect of the process with electromagnetic field and without electromagnetic field on the density and viscosity of vacuum residue. The results showed that the lowest density (0.874 g/cm³) and viscosity (0.481 cP) were obtained by using 20A electric current electromagnetic field at a temperature of 400^oC.

References

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[1] BP Statistical Review of Word Energy, 2016. diakses: http://oilproduction.net/files/especialBP/bp-statistical-review-of-world-energy2016-full-report.pdf

[2] Effendi, S. M. dan Adawiyah R., 2014, Penurunan nilai kekentalan akibat pengaruh kenaikan temperature pada beberapa merek minyak pelumas, Jurnal INTEKNA, 14, 1-9

[3] Joelle, E., Isabelle, H., and Pierre, L., 2011, Organization of Asphaltenes in a Vacuum Residue: A Small-Angle X-ray Scattering (SAXS)-Viscosity Approach at High Temperatures, Fuel, 26, 2696-2704

[4] Luo, P., and Gu, Y., 2007, Effects of asphaltene content on the heavy oil viscosity at different temperatures, Fuel, 86, 1069-1078

[5] Storm, A. D., Barresi, J. R., and DeCanio, J. S., 1990, Colloidal nature of vacuum residue, Butterworth-Heinemann Ltd, Fuel, Vol 70, 779-782

[6] Storm, A. D., Barresi, J. R., and Sheu, Y. E., 1994, Rheological Study of Ratawi Vacuum Residue in the 298-673 K Temperature Range, Energy & Fuel, 9, 168-176

[7] Stratiev, D., Nedelchev, A., and Shishkova, I., 2015, Dependence of visbroken residue viscosity and vacuum residue conversion in a commercial visbreaker unit on feedstock quality, Fuel Process. Technol., FUPROC04617

Pengaruh medan elektromagnetik terhadap densitas dan vikositas pada vacuum residue

Abstract

References

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