
Primary Recovery
Primary recovery, also known as “primary production,” is the initial stage in the extraction process for oil and gas. Subsequent stages in the extraction process, such as secondary and tertiary recovery, are more expensive and may be uneconomical, depending on the price of oil and gas. The key to primary recovery is the fact that the hollow well shaft drilled to access the oil is designed to have a lower pressure than the oil that is deep in the ground. Although primary and secondary recovery techniques rely on the pressure differential between the surface and the underground well, enhanced oil recovery functions by altering the chemical composition of the oil itself in order to make it easier to extract. Because primary recovery methods use the existing disparity in pressure between the surface and the underground reservoir in order to propel oil to the surface, it makes sense that the primary recovery stage is more economical than the secondary or enhanced stages. Typically, the primary recovery process involves placing increased pressure on the oil within wells in order to force oil to the surface.

What Is Primary Recovery?
Primary recovery, also known as “primary production,” is the initial stage in the extraction process for oil and gas. In crude oil production, various methods of primary recovery can be used.
Typically, the primary recovery process involves placing increased pressure on the oil within wells in order to force oil to the surface. Mechanical systems, such as rod pumps, are also sometimes used.



How Primary Recovery Works
The key to primary recovery is the fact that the hollow well shaft drilled to access the oil is designed to have a lower pressure than the oil that is deep in the ground. This difference in pressure can be further increased by various methods, such as pumping water into the well. This method, known as a “water drive,” succeeds by displacing the oil further into the ground, increasing its pressure.
Using Gravity
In some cases, such as when the oil fields are especially shallow and steep, oil can drain to the surface through the sheer force of gravity.
As oil is gradually extracted from the well, the pressure underground will slowly decrease, causing the volume of oil production to decline. To mitigate against this, oil-extraction companies can use artificial lifting systems such as the rod pump to continue production. This method, known for its distinctive bobbing horse head design, employs a beam-and-crank assembly to create a reciprocating motion that uses vertical lift to pump oil out of the well using a series of plungers and valves. Eventually, the pressure underground will become so low that primary recovery will no longer be feasible, even with the use of artificial lifting systems.
Primary vs. Secondary and Tertiary Recovery
Once this point has been reached, secondary recovery techniques must be used, such as additional water injections which seek to force oil to the surface by directly applying pressure. Such an example is steam-assisted gravity drainage (SAGD), which is a secondary recovery technique used to extract heavy crude oil that is buried too deep or otherwise too burdensome to access with primary methods. Also known as the steam flooding process, SAGD uses steam generators to produce highly pressured steam that travels through pipelines into the wells. As the vapor condenses into liquid hot water, it heats the oil to make it less viscous, allowing it to flow by gravity to the bottom of the well. The oil then transfers via a pipe from the producing well at the bottom to a plant for treatment.
The final and third stage is referred to as tertiary recovery in the oil-extraction process, also known as enhanced oil recovery (EOR). This stage involves altering the properties of the oil to assist in its extraction. There are three primary methods of tertiary recovery, involving the use of heat, gas, and chemical injections, respectively. Although primary and secondary recovery techniques rely on the pressure differential between the surface and the underground well, enhanced oil recovery functions by altering the chemical composition of the oil itself in order to make it easier to extract.
Because primary recovery methods use the existing disparity in pressure between the surface and the underground reservoir in order to propel oil to the surface, it makes sense that the primary recovery stage is more economical than the secondary or enhanced stages. For this reason, oil and gas companies must calculate the estimated ultimate recovery (EUR) of a given field in order to determine whether it is profitable to extract the resources from that reservoir using a particular recovery method.
Related terms:
Crude Oil & Investing Examples
Crude oil is a naturally occurring, unrefined petroleum product composed of hydrocarbon deposits and other organic materials. read more
Enhanced Oil Recovery (EOR)
Enhanced oil recovery (EOR) is a process for extracting oil that has not already been retrieved through the primary or secondary recovery techniques. read more
Estimated Ultimate Recovery (EUR)
Estimated Ultimate Recovery (EUR) is a production term used in the oil and gas industry to describe the quantity of recoverable resource. read more
Hydraulic Fracturing
Hydraulic fracturing stimulates better flow in oil and gas plays by injecting a high-pressure liquid and sand mixture into the wellbore. read more
Oil Shale
Oil shale is a type of sedimentary rock formation that is used to produce oil and gas. It is generally less economical than conventional crude oil. read more
Shale Oil
Shale oil is a type of oil found in shale rock formations that must be hydraulically fractured to extract. Read about the pros and cons of shale oil. read more
Steam-Assisted Gravity Drainage (SAGD)
Steam-assisted gravity drainage (SAGD) is a drilling technique used to extract heavy oil that cannot be mined using traditional methods. read more
Steam-Oil Ratio Defined
The steam-oil ratio is a metric used to assess the efficiency of thermal enhanced oil recovery (EOR) techniques. read more
Tertiary Recovery
Tertiary recovery, also known as enhanced oil recovery (EOR), is the third stage used to extract oil from an oil reserve. read more