Oil & Natural Gas Projects
Exploration and Production Technologies
Cooperative Agreement on Energy Technologies: Chemical and Microbial Characterization of North Slope Viscous Oil to Assess Viscosity Reduction and Enhanced Recovery
DE-FC26-01NT41248 (Task 3.05.3)
The overall goals of this project are to:
- Collect and characterize Alaska North Slope (ANS) heavy oils at molecular and core scales.
- Measure and analyze their physico-chemical and microbial characteristics.
- Test the amenability of ANS viscous oils to chemical/microbial enhanced oil recovery (MEOR).
- Prepare a data matrix useful for developing effective EOR methods for ANS heavy oils.
University of Alaska-Fairbanks (UAF), Fairbanks, AK
IBM Corporation, Health & Care Life Sciences Integrated Solutions, New York, NY
Experiments were conducted to assess the compatibility of the surfactant-producing microbes selected for the MEOR tests to a nutrient medium (mixture of Bushnell Haas Broth, sucrose, and sodium chloride) and it was observed that the bacteria grew at 30 °C in the proposed nutrient medium. The first core was injected with the microbial formulation after initial waterflooding. The initial waterflood led to a residual oil saturation of 53.24 percent of the initial oil saturation. There was a week’s shut-in period after injection of the microbial formulation. The microbial formulation led to 7.04 percent EOR. A second core was injected with the microbial formulation without the waterflooding. That core is currently in a shut-in period.
A significant volume of ANS oil deposits are made up of heavy/viscous oil. The results of this project could lead to increased production of oil from existing ANS fields, as well as the extension of production to viscous oil resources on ANS that are not currently being produced. If the technology can be commercially developed, it could provide business opportunities for the Alaskan industries involved.
Most remaining unproduced ANS oil reservoirs are shallow deposits with heavy/viscous oil. These heavy/viscous oil deposits are not possible to produce using primary oil recovery. Only a small percentage can be produced using waterflooding as a secondary oil recovery method. Even after waterflooding, a vast portion of these deposits remains in place. These oil deposits must be produced using tertiary recovery methods such as thermal methods, carbon dioxide (CO2) injection or microbial MEOR.
The research focuses on coreflooding experiments and microbial characterization studies. The coreflooding experiments are being conducted to find out whether using MEOR will lead to any increase in the oil recovery. Two successful experimental runs have been performed on Berea core samples.
For the microbial characterization studies, Bacillus licheniformis was used as the biosurfactant producing agent. A sample of the bacteria was obtained from American Type Culture Collection (ATCC) and cultured in the Arctic Health Research Building at UAF. An effective microbial formulation was made using Bushnell Haas Broth as the nutrient media, along with sucrose as the carbon source.
Cloning and sequencing studies still need to be performed to assess the indigenous microbial community present in the oil.
Current Status (April 2007)
The project is in its second year, which began in September 2005. It was scheduled to be completed in September 2006; however, the completion date has been extended by 1 year to September 2007.
This project was selected in response to DOE’s Arctic Energy Office solicitation DE-FC26-01NT41248, January 2005.
Project Start: September 1, 2005.
Project End: September 30, 2007.
Anticipated DOE Contribution: $169,633
Performer Contribution: $50,000 (23 percent of total)
NETL – James Hemsath (firstname.lastname@example.org or 907-452-2672)
University of Alaska Fairbanks – Shirish Patil (email@example.com or 907-474-5127)
IBM Life Sciences – Frederick Busche (firstname.lastname@example.org or 972-318-1723)
No publications have been released, but a critical literature review paper on MEOR is in progress and will be released shortly.