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Valorization of Loads Petroleum by Thermal Process
Corresponding Author(s) : N. Ben Tahar
Asian Journal of Chemistry,
Vol. 25 No. 6 (2013): Vol 25 Issue 6
Abstract
This study was performed to allow the study of the chemical composition influence of the coking process load on the efficiency and the quality of coke. For this reason, the coking of the following loads was realized: Atmospheric residue, vacuum residue and catalytic residue of cracking. As the oil residues are rich for their strongly polar composition, such as the asphaltene resins and complex structures units, which has a role in the formation of coke and as the dispersion of these latter improves the quality of coke, a study on the stability of aggregation was carried out by the addition of one stabilizer (oil extract) in the coking process load. The compounding (extracted from/the residue of cracking oil) has been drived to the best efficiency of coke.
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- S. Parkash, Refining Processes Handbook, Elsevier (2003).
- A.N. Sawarkar, A.B. Pandit, S.D. Samant and J,B. Joshi, Can. J. Chem. Eng., 85, 1 (2007).
- N.P. Lieberman, Troubleshouting Process Operations (1991).
- H. Shen, Z. Ding and R. Li, Thermal Conversion-An Efficient Way for Heavy Residue Processing, in “Proc. 15th World Petroleum Congress, Vol. 2, pp. 907-913 (1998).
- G.E. Totten, S.R. Westbrook and R.J. Shah, Fuels and Lubricants Handbook: Technology Properties Performance and Testing, ASTM Manual Series: MNL37WCD, ASTM International, PA, USA (2003).
- J.F. Le page, S.G. Chatila and M. Davidson, Refining and Conversion of the Heavy Products of Oil, Technical edition (1990).
- V. Simanzhenkov and R. Idem, Crude Oil Chemistry, CRC Press, pp. 337-344 (2003).
- T. Nakajima, I. Shikura, T. Asuka and I.H. Yamakawa, Thermal Cracking of Asphaltènes Fractionated from Khafjji Asphalt, Oil & Gas Science and Technology, Rev IFP, Vol 14, N1 (1981).
- H. Mimoun, Study of the Stability of Aggregation of the Oil Residues; Masla and Topliva, Moscow (1983).
References
S. Parkash, Refining Processes Handbook, Elsevier (2003).
A.N. Sawarkar, A.B. Pandit, S.D. Samant and J,B. Joshi, Can. J. Chem. Eng., 85, 1 (2007).
N.P. Lieberman, Troubleshouting Process Operations (1991).
H. Shen, Z. Ding and R. Li, Thermal Conversion-An Efficient Way for Heavy Residue Processing, in “Proc. 15th World Petroleum Congress, Vol. 2, pp. 907-913 (1998).
G.E. Totten, S.R. Westbrook and R.J. Shah, Fuels and Lubricants Handbook: Technology Properties Performance and Testing, ASTM Manual Series: MNL37WCD, ASTM International, PA, USA (2003).
J.F. Le page, S.G. Chatila and M. Davidson, Refining and Conversion of the Heavy Products of Oil, Technical edition (1990).
V. Simanzhenkov and R. Idem, Crude Oil Chemistry, CRC Press, pp. 337-344 (2003).
T. Nakajima, I. Shikura, T. Asuka and I.H. Yamakawa, Thermal Cracking of Asphaltènes Fractionated from Khafjji Asphalt, Oil & Gas Science and Technology, Rev IFP, Vol 14, N1 (1981).
H. Mimoun, Study of the Stability of Aggregation of the Oil Residues; Masla and Topliva, Moscow (1983).