Identyfikatory
Warianty tytułu
Aggregation, coagulation and precipitation of asphaltenes from process streams – a literature review
Języki publikacji
Abstrakty
W artykule przedstawiono problematykę wytrącania się asfaltenów, mającą znaczenie głównie w przypadku procesów wydobycia, przesyłu i przeróbki ropy naftowej. Omówiono metodyki badania tego zjawiska. Wskazano podstawowe zależności pomiędzy warunkami procesu a właściwościami fizykochemicznymi wytrąconej frakcji asfaltenowej oraz przybliżono hipotetyczne mechanizmy wyjaśniające kinetykę zjawiska koagulacji.
The article presents the problem of precipitation of asphaltenes of importance mainly for processes of extraction, transportation and processing of crude oil. A methodology for the study of this phenomenon is described. The paper points out fundamental relationships between process conditions and the physicochemical properties of the precipitated asphaltene fraction and describes the hypothetical kinetics mechanisms of the flocculation phenomenon.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
294--299
Opis fizyczny
Bibliogr. 35 poz., rys.
Twórcy
autor
- Politechnika Gdańska, Wydział Chemiczny, Katedra Inżynierii Chemicznej i Procesowej, ul. Gabriela Narutowicza 11/12, 80-233 Gdańsk
autor
- Politechnika Gdańska, Wydział Chemiczny, Katedra Inżynierii Chemicznej i Procesowej, ul. Gabriela Narutowicza 11/12, 80-233 Gdańsk
Bibliografia
- [1] Acevedo S., Caetano M., Ranaudo M. A., Jaimes B.: Simulation of asphaltene aggregation and related properties using an equilibrium-based mathematical model. Energy & Fuels 2011, vol. 25, s. 3544–3551.
- [2] Afshari S., Alizadeh A., Ghazanfari M. H., Kharrat R., Moqadam M. S., Nakhli H.: Monitoring of asphaltene precipitation: Experimental and modeling study. Journal of Petroleum Science and Engineering 2011, vol. 78, s. 384–395.
- [3] Ahn S., Chun J. H., Jeon S. G., Lee J. M., Lee K. B., Mun S. i in.: Separation of solvent and deasphalted oil for solvent deasphalting process. Fuel Process Technology 2014, vol. 119, s. 204–210.
- [4] Akbarzadeh K., Allenson S., Creek J., Hammami A., Jamaluddin A., Kabir S. i in.: Asphaltenes-Problematic but rich in potential. Oilfield Review 2007, nr 2, s. 22–43.
- [5] Al-Sabawi M., de Bruijn T., Seth D.: Effect of modifiers in n-pentane on the supercritical extraction of Athabasca bitumen. Fuel Processing Technology 2011, vol. 92, s. 1929–1938.
- [6] Anooshe A., Hassanvad M., Shahsavani B.: Study of temperature effect on asphaltene precipitation by visual and quantitative methods. Journal of Petroleum Technology and Alternative Fuels 2012, vol. 3, s. 8–18.
- [7] Arciniegas L. M., Babadagli T.: Asphaltene precipitation, flovulation and deposition during solvent injection at elevated temperatures for heavy oil recovery. Fuel 2014, vol. 124, s. 202–211.
- [8] Bahadori A., Elkameld A., James L. A., Lohi A., Shafieib A., Zandehboudia S.: Asphaltene precipitation and deposition in oil reservoirs – Technical aspects, experimental and hibrid neural network predictive tools. Chemical Engineering Research and Design 2014, vol. 92, s. 857–875.
- [9] Boukherissa M., Mutelet F., Modarressi A., Dicko A., Dafri D., Rogalski M.: Ionic liquids as dispersant of petroleum asphaltenes. Energy & Fuels 2009, vol. 23, nr 5, s. 2557–2564.
- [10] Buckley J. S.: Asphaltene deposition. Energy & Fuels 2012, vol. 26, s. 4086–4090.
- [11] Buenrostro-Gonzalez E., Gil-Villegas A., Lira-Galena C., Wu J.: Asphaltene precipitation in crude oils: Theory and experiments. American Institute of Chemical Engineers Journal 2004, vol. 50, s. 2552–2570.
- [12] Chong K., Monnery W. D., Rose J. L., Syrcek W. Y.: Experimental data for the extraction of Peace Riverbitumen using supercritical ethane. Fuel 2001, 50, s. 1101–1110.
- [13] Creek J., Jamaluddin A., Joshi N. B., McFadden J., Mullins O. C.: Asphaltene precipitation from live crude oil. Energy & Fuels 2001, vol. 15, s. 979–986.
- [14] da Silva Ramos A. C., Haraguchi L., Natrispe F. R., Loh W., Mohamed R. S.: Interfacial and colloidal behavior of asphaltenes obtained from Brazilian crude oils. Journal of Petroleum Science Engineering 2001, vol. 32, s. 201–216.
- [15] de Boer R. B., Leerlooyer K., Eigner M. R., van Bergen A. R.: Screening of crude oils for asphalt precipitation: theory, practice, and the selection of inhibitors. SPE Production & Facilities 1995, vol. 10, s. 55–61.
- [16] Djema H., Eutamene M., Khodja M., Meniai A. H., Mouloudj N.: Asphaltene precipitation in Algerian oilfields: Experimental investigation and field mitigation. Chemical Engineering Transactions 2014, vol. 39, s. 1663–1668.
- [17] Dong Z., Li M., Lin M., Liu G., Wang J.: Experimental study on asphaltene precipitation induced by CO2 flooding. Petroleum Science 2014, vol. 11, s. 174–180.
- [18] Gu Y., Luo P.: Characterization of a heavy oil-propane system in the presence or absence of asphaltene precipitation. Fluid Phase Equilibria 2009, 277, s. 1–8.
- [19] Gu Y., Wang X.: Characterization of precipitated asphaltenes and deasphalted oils of the medium crude Oil CO2 and medium crude oil n-pentane systems. Energy & Fuels 2011, vol. 25, s. 5232–5241.
- [20] Haji-Akbari N., Masirisuk P., Hoepfner M. P., Fogler H. S.: A unified model for aggregation of asphaltenes. Energy & Fuels 2013, vol. 27, s. 2497–2505.
- [21] Haji-Akbari N., Teeraphapkul P., Fogler H. S.: Effect of asphaltene concentration on the aggregation and precipitation tendency of asphaltene. Energy & Fuels 2014, vol. 28, s. 909–919.
- [22] Hashmi S. M., Firoozabadi A.: Controlling nonpolar colloidal asphaltene aggregation by electrostatic repulsion. Energy & Fuels 2012, vol. 26, s. 4438–4444.
- [23] Headen T. F., Boek E. S., Skipper N. T.: Evidence for asphaltene nanoaggregation in toluene and haptane from molecular dynamics simulations. Energy & Fuels 2009, vol. 23, s. 1220–1229.
- [24] Jiang T. S., Kawanaka S., Mansoori G. A.: Asphaltene deposition and its role in petroleum production and processing. Arabian Journal for Science and Engineering 1988, vol. 13, s. 17–34.
- [25] Khoshandam A., Alamdari A.: Kinetics of asphaltene precipitation in a heptane-toluene mixture. Energy & Fuels 2010, vol. 24, s. 1917–1924.
- [26] Leontaritis K., Mansoori G.: Asphaltene deposition: A survey of field experiences and research approaches. Journal of Petroleum and Science Engineering 1988, vol. 1, nr 3, s. 229–239.
- [27] Liang J., Zhang Y.: A new method of processing heavy oil: Residue decarbonization technology (RDCP). 19th World Petroleum Congress. Madryt 2008.
- [28] Lisitza N. V., Freed D. E., Sen P. N., Song Y.: Study of asphaltene nanoaggregation by nuclear magnetic resonance. Energy & Fuels 2009, vol. 23, nr 3, s. 1189–1193.
- [29] Modarresi H., Sattarin M., Talachi H., Teymori M.: Solvent deasphalting of vacuum residue in a bench-scale unit. Petroleum and Coal 2006, vol. 48, nr 3, s. 14–19.
- [30] Mousavi S. M., Najafi I., Ghazanfari M. H., Amani M.: Comparison of ultrasonic wave radiation effects on asphaltene aggregation in toluene-pentane mixture between heavy and extra heavy crude oils. Journal of Energy Resources Technology – Transactions of the ASME 2012, vol. 134, s. 1–6.
- [31] Mullins O. C.: The modified Yen model. Energy & Fuels 2010, vol. 24, s. 2179–2207.
- [32] Mullins O. C., Betancourt S. S., Cribbs M. E., Dbost F. X., Creek J. L., Ballard Andrews A. i in.: The colloidal structure of crude oil and the structure of oil reservoirs. Energy & Fuels 2007, vol. 21, s. 2785–2794.
- [33] Warnecki M.: Doskonalenie technik badań warunków flokulacji asfaltenów metodą prześwietlania ropy strumieniem światła podczerwonego. Nafta-Gaz 2011, nr 7, s. 454–462.
- [34] Yudin I. K., Nikolaenko G. L., Gorodetskii E. E., Kosoy V. I., Melikyan V. R., Markhashov E. L. i in.: Mechanisms of asphaltene aggregation in toluene-heptanes mixtures. Journal of Petroleum Science and Engineering 1998, vol. 20, s. 297–301.
- [35] Yudin I. K., Nikolaenko G. L., Gorodetskii E. E., Markhashov E. L., Agayan V. A., Anisimov M. A. i in.: Crossover kinetics of asphaltene aggregation in hydrocarbon solutions. Physica A 1998, vol. 251, s. 235–244.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-15c0838c-3055-4970-99a5-a75d32de7b9f