Nitrogen Gas Injection Enhanced Oil Recovery Techniques & Systems
The hallmark of a typical oil and gas well lifecycle is a series of concerted efforts aimed at the optimal recovery of hydrocarbons. Over several phases, various techniques and technologies are employed, depending on the age of the well, the unique characteristics of the formation, and cost considerations.
This article will outline the various phases of hydrocarbon production and explore the application of Nitrogen gas injection for enhanced oil recovery.
Primary Recovery Phase
Primary oil recovery begins at the end of completion operations – after the newly-drilled wellbore has been cased and cemented with a production tree installed at the wellhead. In this phase, engineers utilize pumping operations alongside the natural formation pressure to flow oil and gas to the surface.
Secondary Recovery Phase
After the well has produced for a while, the initial formation pressure will decline. A secondary hydrocarbon recovery phase then becomes essential to ramp up production volume. For further recovery, the operator injects water or gas into the target reservoir through nearby injection wells to ‘sweep’ hydrocarbons towards the production well.
Enhanced Hydrocarbon Recovery
Primary oil and gas recovery methods unlock only about 10% of the oil initially in place (OIIP), while secondary recovery efforts obtain an additional 20 – 40%. Therefore, a substantial quantity of oil remains in the formation until more advanced recovery methods are employed.
These methods are collectively known as enhanced oil recovery (EOR) techniques. Enhanced oil recovery techniques attempt to artificially modify the reservoir characteristics in order to restore formation pressure and improve oil displacement. When done correctly, EOR efforts can recover up to 75% of OIIP and boost existing production volume by as much as 200-300%.
Gas Injection
In gas injection EOR, Nitrogen, CO2, or natural gas is injected into the reservoir to improve or stabilize production. Gas flooding improves natural gas recovery by expansion and crude recovery by dissolving in the oil to decrease its viscosity and improve flow.
Let’s take a closer look at the use of Nitrogen for gas injection in oil wells.
Nitrogen Flooding
For decades, major oil and gas operators in the industry have explored the viability of using Nitrogen gas injection for oil recovery due to its highly compressible nature, inert chemical properties, and reasonable cost of generation (the raw material is atmospheric air).
N2 is used for EOR by ‘miscible displacement’ or ‘miscible flooding’ – the process of improving hydrocarbon mobility by reducing the interfacial tension between oil and water.
How Nitrogen Displacement Works
In Nitrogen gas injection, N2 of a suitable Minimum Miscible Pressure (MMP) is injected into a reservoir to free up hydrocarbons trapped in the formation.
At very high pressures (~15,000 psi), N2 forms a miscible slug that sweeps oil and gas from hard-to-reach sections of the reservoir and pools them together, after which they will be pumped up the production well for collection. This process can recover up to 60% of OIIP.
Advantages of Nitrogen Injection
Nitrogen gas injection is one of the more favored EOR techniques because it is cost-effective and sustainable. A single rail car (N2 storage and transport unit) can hold as much 1.2 million standard cubic feet (SCF) of liquid N2.
Another advantage of using Nitrogen gas injection for enhanced oil recovery is its inert chemical characteristics. N2 can prevent down-hole combustion of flammable gases and has no corrosive effect on pipelines, unlike CO2.
