A Novel Viscosity Reduction Plant-Based Diluent for Heavy and Extra-Heavy Oil
- Salar Afra (Texas A&M University) | Hisham Nasr-El-Din (Texas A&M University) | Dan Socci (Ethicalchem) | Zheng Cui (Ethicalchem)
- Document ID
- Society of Petroleum Engineers
- SPE Improved Oil Recovery Conference, 11-13 April, Tulsa, Oklahoma, USA
- Publication Date
- Document Type
- Conference Paper
- 2016. Society of Petroleum Engineers
- 5.4 Enhanced Recovery, 5.4.10 Microbial Methods, 4.3.3 Aspaltenes, 5 Reservoir Desciption & Dynamics, 5.4.6 Thermal Methods
- Heavy oil transportation, Viscosity reduction, Solvent, Unconventional, Dilution
- 9 in the last 30 days
- 333 since 2007
- Show more detail
- View rights & permissions
|SPE Member Price:||USD 8.50|
|SPE Non-Member Price:||USD 25.00|
The production and transportation of heavy and extra-heavy crude oil are two of the paramount concerns in the oil industry due to the difficulties associated with heavy crude oil high viscosity. One of the most efficient techniques to improve the recovery and the transportability of such oil is to reduce its viscosity through dilution that can be applied solely or via thermal methods.
In the present work, a new type of plant-based diluent is proposed, and its efficacy in heavy oil viscosity reduction for different concentrations, temperatures and shear rates is studied. Various concentrations of diluent, ranging from 5 to 25 wt%, are added to heavy-oil samples with different concentrations of asphaltene and viscosity, ranging from 48000 to 65000 cp in ambient temperature. A rotational viscometer was then employed to the measure viscosity of the prepared samples at the temperature range of 70 to 190°F and a shear rate of 3 to 50 s-1.
The application of the proposed diluent led to promising results in that in caused the viscosity of the heavy oil samples to reduce by 93% in 75°F and 85% in 190°F with 20 wt% of diluent. To compare the performance of the proposed solvent and the common viscosity-reducing solvents, heavy oil samples were diluted with xylene and toluene with the same concentrations. Results indicated that the application of proposed diluent outperformed all of the commonly used solvents in terms of decreasing viscosity. The application of 20 wt% of the proposed diluent led to a 93% viscosity reduction of the heavy oil samples, which is 15% more than efficiency of adding the same concentration of toluene.
The proposed diluent is a plant-based, non-hazardous substitute to the conventional hazardous diluents, e.g., xylene or toluene, that provides more efficient viscosity reduction compared to its conventional alternatives. Its flashpoint is higher than that of light crude resulting in less evaporation at high temperatures thus a longer period of reduced viscosity can be obtained. Furthermore, due to its high flashpoint, the proposed diluent can be employed in thermal methods more efficiently.
|File Size||643 KB||Number of Pages||15|
Afra, S., & Tarrahi, M. (2015, November 17). Assisted EOR Screening Approach for CO2 Flooding with Bayesian Classification and Integrated Feature Selection Techniques. Carbon Management Technology Conference. doi: 10.7122/440237-MS.
Argillier, J.F., Barre, L., Brucy, F.. 2001. Influence of Asphaltenes Content and Dilution on Heavy Oil Rheology. Society of Petroleum Engineers. http://dx.doi.org/10.2118/69711-MS
Emrani, A.S., & Nasr-El-Din, H.A. 2015. Stabilizing CO2-Foam using Nanoparticles. Society of Petroleum Engineers. http://dx.doi.org/10.2118/174254-MS
Henaut, I., Barre, L., Argillier, J.F., Brucy, F., and Bouchard, R. 2001. Rheological and Structural Properties of Heavy Crude Oils in Relation with Their Asphaltenes Content. Society of Petroleum Engineers. http://dx.doi.org/10.2118/65020-MS.
Jeffries-Harris, M J., and Coppel, C P. (1969). Solvent Stimulation in Low Gravity Oil Reservoirs. Society of Petroleum Engineers. doi: 10.2118/2158-PA.
Knorr, K.D. and Imran, M. 2013. Effect of Dead Oil Viscosity and Injected Solvent Type on SVX Process Performance. Society of Petroleum Engineers. SPE 165454-MS. http://dx.doi.org/10.2118/165454-MS
Rangel-German, E., Camacho Romero, S., Neri Flores, U.. 2006. Thermal Simulation and Economic Evaluation of Heavy-oil Projects. Society of Petroleum Engineers. http://dx.doi.org/10.2118/104046-MS.
Tarrahi, M., Afra, S., & Surovets, I. (2015, October 26). A Novel Automated and Probabilistic EOR Screening Method to Integrate Theoretical Screening Criteria and Real Field EOR Practices Using Machine Learning Algorithms (Russian). Society of Petroleum Engineers. doi: 10.2118/176725-RU.