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Posted on 05/31/2026 6:39:41 PM PDT by Red Badger
Researchers at the National Energy Technology Laboratory (NETL) are taking significant steps that can help boost production of oil and natural gas that can be recovered from unconventional formations.
The method focuses on recovering these additional resources in shale and other tight reservoirs that have already produced hydrocarbons through hydraulic fracturing in primary recovery operations but still contain large amounts of oil and gas trapped within rocks.
In unconventional formations, only a small percentage of hydrocarbons in place are typically extracted. While the new research could help ensure affordable, reliable, and secure energy for the United States.
Primary recovery from hydraulic fracturing
“Primary recovery from hydraulic fracturing in these unconventional formations is typically between 3% and 10% of oil in place and 5% to 30% of natural gas in place,” said NETL researcher Angela Goodman, a world-renowned expert in geological systems.
“Our task involves finding safe and cost-effective strategies to recover far greater percentages of the oil and gas left behind in those reservoirs.”
Nuclear magnetic resonance spectroscopy provides valuable assistance
The research team claims that the nuclear magnetic resonance (NMR) spectroscopy provides valuable assistance.
The NETL team is using NMR technology to quantify fluids in subsurface cores by determining the porosity and pore size distribution for pores as small as 1 nanometer. NMR can also identify the type of fluid in the core by differentiating fluids of different viscosities, such as water, hydrogen, heavy oil, light oil, and natural gas, and characterize a core’s wetting properties to determine whether the rock will preferentially take up water, oil, natural gas, and carbon dioxide (CO2) to promote oil and gas recovery, according to a press release.
“We begin with saturating shale cores in hydrocarbon oil. Hydrogen atoms are abundant in the hydrocarbon-soaked cores. When the rock core is placed in the NMR unit’s magnetic field, the hydrogen nuclei align themselves with the field,” said NETL researcher Matthew Grindle.
Researchers revealed that a radiofrequency pulse is then applied, briefly knocking the nuclei out of alignment. Once the pulse is switched off, the protons slowly return to their magnetically aligned state in a process known as “relaxation.”
NMR relaxation times provide information about in-situ porosity (percentage of void space within a rock indicating how much water, oil, or gas it can hold), pore size distribution (size of pores within a rock), permeability (a measure of how easily fluids can flow through the interconnected pore spaces within the rock), and fluid saturation of the rock, as per the release.
Researchers also revealed that the NMR unit has the capability to analyze rock cores while in a pressure vessel to simulate extreme pressures of up to 10,000 psi and temperatures of 100 degrees Celsius, which are found in the subsurface, and study how fluids flow through rock cores under these conditions.
“Such analyses enable the measurement of initial multiphase fluid saturation (water, hydrocarbons, etc.) and monitor fluid saturation changes throughout injection of new fluid such as CO2, natural gas, water, and surfactants intended to initiate oil recovery” said NETL researcher Lauren Burrows.
The NMR technology will be used to conduct experiments in which the oil-saturated rock core is held at high pressure and injected with natural gas, water, surfactant, or CO2 to complete a technique known as “huff-and-puff.”
During these huff-and-puff experiments, digital scans are generated to create a 3D map of the distribution of fluids in the rock and show how the injected fluid moves the oil and water throughout the rock pores, including fluid in nanopores that are thousands of times smaller than the width of a human hair, according to the press release.
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Agreed.
So far, all it says is NMR allows more intensive study of rock properties (e.g. Porosity, permeability, pore size), as well appraising the constituent substances present. Nothing about how it enables them to increase the recovery factor.
There is huge upside once egineeers begin to figure this out. As with most such improvements, it will be an incremental process.
Only a college education in the liberal arts could produce that response
Any idea how soon this comes to market?
I have long read that even fracking only draws up a tiny percent of the oil in place
No way of knowing...................
https://www.eia.gov/finance/markets/crudeoil/https://www.eia.gov/finance/markets/crudeoil/
Key factors influencing crude oil prices:
Spot prices
Supply from non-OPEC countries
Supply from OPEC countries
The supply demand balance: inventories
Financial markets
Demand in non-OECD countries
Demand in OECD countries
More good news - the Left hates the concept of abundant and affordable energy because it makes their subjects freer and more prosperous...
“The essential act of war is destruction, not necessarily of human lives, but of the products of human labour. War is a way of shattering to pieces, or pouring into the stratosphere, or sinking in the depths of the sea, materials which might otherwise be used to make the masses too comfortable, and hence, in the long run, too intelligent.”
― George Orwell, 1984
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