There is much debate on the topic of global supply and demand for crude oil. Many believe that peak oil production has occurred or will occur shortly. Others argue that there are still ample reserves to meet foreseeable need. Both camps agree, however, that production efficiency is important for the long-term supply of the world’s energy demand. Few new giant oil fields have been discovered since the early 1970s, and most existing fields are experiencing significant production decline. There is a critical need for technology that increases oil recovery.

The Titan Process uses microbial enhanced oil recovery (MEOR) to “find” oil where it has already been discovered by releasing oil that is trapped in the formation. The Titan Process has been successfully demonstrated on both onshore and offshore fields on three continents with ongoing commercial field projects.

The scientific solution

Activating certain identified species of microbes effects changes in flow characteristics of oil and induces the reservoir system to release additional oil to the active flow channels. (Image courtesy of Titan Oil Recovery Inc.)



MEOR has been discussed for decades, but until recently has been dismissed as “snake oil.” The principles of the process, however, are sound, and a new twist on this technology is beginning to emerge for increasing oil recovery in existing fields. Technically this is a new tertiary process, but, in reality, it is being recognized as a new category of recovery.

When combined with existing waterflood projects, this “bioflood” accesses naturally occurring microbes living in the reservoir to cause the oil to flow more freely.

Laboratory analysis indicates that Titan’s MEOR technology can add up to 10% additional oil recovery from the existing original-oil-in-place. Globally, this could result in many billions of additional barrels of oil. The MEOR process also can be used in conjunction with other secondary or tertiary recovery methods to further enhance those processes when conditions allow.

The Titan Process uses a proprietary approach to MEOR, targeting mature oil fields currently using conventional waterflood operations as a means of secondary recovery. Unlike previous attempts at MEOR, this process does not introduce microbes into the oil-producing reservoir. Instead, through sophisticated analysis of field-specific crude oil and water samples, microbes that are naturally indigenous to the oil reservoir are identified and quantified, allowing a “designer mixture” of environmentally benign nutrients to be formulated and released into the reservoir via the water injection system.

Each reservoir is treated with a specific, unique, targeted nutrient formula. The process is designed for crude oil production and is not currently suitable for natural gas or condensate fields or for heavy oil reservoirs.

Activating certain identified species of microbes effects changes in flow characteristics of oil and induces the reservoir system to release additional oil to the active flow channels. In very highly permeable portions of the reservoir (“thief zones”), newly released oil, water, and microbes can interact to form a transient micro-emulsion that effectively alters the sweep efficiency of the injected water as it moves through the reservoir to improve production.

The problem

Of the oil being produced today, 80% is from fields discovered before 1973. Many (if not most) of these fields are now in terminal production declines, yet 55% to 65% of the oil remains trapped. Mature fields being maintained with increasingly more expensive recovery methods are experiencing annual production declines of 4% to 15% and are struggling to maintain profitability. The Titan Process has proven to be effective in increasing, stabilizing, or mitigating production declines.

More than 20,000 wells are abandoned every year in the US as they become noncommercial. Approximately 285,000 shut-in wells in the US are potential targets for MEOR revival. Internationally there are about 800,000 more shut-in wells, a significant percentage of which could benefit from the Titan Process.

The answer

The mechanics of MEOR at a molecular level are quite simple. The microbes used in the Titan MEOR process are organic-nutrient-utilizing, non-pathogenic microorganisms that occur naturally in oil reservoirs. They are non-threatening for plants, animals, and humans. They ingest organic material as a food source, which they metabolize during their life cycle.

The microbial “digestive” process can form various bio-products such as alcohols, gases, acids, surfactants, and polymers, which, because of their origin, are all natural. For many microbial processes, bio-products (which are excreted by the microorganisms) cause a series of desirable changes in the physical-chemical properties of the crude oil. Almost all previous and competing MEOR methods attempt to modify the behavior of microbes to produce bio-gas, bio-surfactants (soapy substance), and bio-polymers (molecules that can thicken liquids) to effect the desired changes in the oil.

The Titan Process is unique because it does not require the microbes to excrete anything. The microbes are induced to become attracted to trapped oil causing
it to break into smaller droplets with reduced interfacial tension (“frictional” effects between oil and water) so oil can flow more freely through the rock.
The oil characteristics do not change, but the flow characteristics and viscosity are significantly improved.

Combining bio-science with conventional petroleum engineering sciences can improve oil recovery. Many reservoirs contain naturally occurring microbes within the subsurface oil-water system. In other words, the reservoir harbors a natural bio-mass that comprises trillions of microbes. Feeding and managing the ecology of the biomass with a specific nutrient formula allows potentially large amounts of oil to be recovered.

The Titan Process only uses biodegradable, microbe-free nutrients that are formulated to direct the work in the reservoir. The Titan Process is environmentally safe.

Non-glucose nutrient formulas are reservoir-specific based on thousands of empirical tests on many diverse types of crude oil. The existing natural microbial population is fed a small amount of food that is assimilated by the microbes. There is no change to the biological or chemical makeup of the reservoir oil. There is no adverse environmental impact. Harmful chemicals, acids, and corrosive gas injections are eliminated from this enhanced oil recovery process. Sulfate reducing bacteria, which produce a detrimental substance, hydrogen sulfide (H2S), are crowded out by the microbes that are fed the Titan nutrients. Field tests show that H2S levels have been reduced in treated portions of the reservoir.

Titan intends to change the secondary and tertiary production of oil by combining physical geoscience with the biological science of microbiology to allow the production of oil by managing and utilizing the biological energy of the oil reservoir itself.

Success in the field

Titan’s MEOR Process has been field tested in commercial applications. Approximately 50 individual well treatments have been performed with more than half of these in the past twenty months. Recent and ongoing field successes have proven the commercial viability of the Titan Process.

Five oil fields on three continents where Titan’s process was applied during the research and development “proof of concept” phase increased oil production of 19% to 100%.

Current (2007-2009) applications have yielded 16 production increases in 19 applications for an 84% success rate.

The current commercial phase of operations (2007-2009) has led to 35 individual treatments on both producing and water injection wells. In accordance with treatment protocols, several of the wells received multiple treatments to prolong the effectiveness. These have yielded 13 production increases in 14 wells or pilot study areas for a 93% success rate.