“Using our research we can even say where oil could be found in Sweden,” says Vladimir Kutcherov, a professor at the Division of Energy Technology at KTH.
Together with two research colleagues, Vladimir Kutcherov has simulated the process involving pressure and heat that occurs naturally in the inner layers of the earth, the process that generates hydrocarbon, the primary component in oil and natural gas.
According to Vladimir Kutcherov, the findings are a clear indication that the oil supply is not about to end, which researchers and experts in the field have long feared.
He adds that there is no way that fossil oil, with the help of gravity or other forces, could have seeped down to a depth of 10.5 kilometers in the state of Texas, for example, which is rich in oil deposits. As Vladimir Kutcherov sees it, this is further proof, alongside his own research findings, of the genesis of these energy sources – that they can be created in other ways than via fossils. This has long been a matter of lively discussion among scientists.
“There is no doubt that our research proves that crude oil and natural gas are generated without the involvement of fossils. All types of bedrock can serve as reservoirs of oil,” says Vladimir Kutcherov, who adds that this is true of land areas that have not yet been prospected for these energy sources.
But the discovery has more benefits. The degree of accuracy in finding oil is enhanced dramatically – from 20 to 70 percent. Since drilling for oil and natural gas is a very expensive process, the cost picture will be radically altered for petroleum companies, and in the end probably for consumers as well.
“The savings will be in the many billions,” says Vladimir Kutcherov.
To identify where it is worthwhile to drill for natural gas and oil, Vladimir Kutcherov has used his research to arrive at a new method. It involves dividing the globe into a finely meshed grid. The grid corresponds to fissures, so-called ‘migration channels,’ through underlying layers under the surface of the earth. Wherever these fissures meet, it is suitable to drill.
According to Vladimir Kutcherov, these research findings are extremely important, not least as 61 percent of the world’s energy consumption derives from crude oil and natural gas.
The next step in this research work will involve more experiments, but above all refining the method will make it easier to find places where it is suitable to drill for oil and natural gas.
Vladimir Kutcherov, Anton Kolesnikov, and Alexander Goncharov’s research work was recently published in the scientific journal Nature Geoscience, vol. 2, August.
Full bibliographic information Methane-derived hydrocarbons produced under upper-mantle conditions
Anton Kolesnikov, Vladimir G. Kutcherov, Alexander F. Goncharov
Nature Geoscience 2, 566-570 (26 July 2009) doi:10.1038/ngeo591