Abstract: This invention relates to downhole resource extraction technology and may be used to recover crude oil, gas, asphalt, coal, radioactive and rare metals, nonferrous and precious metals, and underground sulfur. This method of downhole resource extraction includes: penetrating a productive formation with conventional wells; generating thermal energy directly within said formation on a capillary microlevel by running an electric current through a natural or artificially created conductive part of the formation to establish a high-temperature channel in said formation; and setting and maintaining a controllable design temperature within specified sections of the formation. The design temperature will be set based on the type of resource to be recovered and is intended to keep specified parameters of the target resource in a flowing state.
Abstract: A process for the thermobaric production of hydrocarbons from natural reservoirs through conventional wells. The hydrocarbons are converted into corresponding vapor phase fractions in the downhole, through the use of a combination of gasifying agents, heated atmospheric air, and steam—all pumped into the downhole. Temperature and pressure gradients that develop in the reservoir lead to disintegration of low-porosity rock and decompaction of impermeable rock. The vapor phase fractions are recovered at the well head and condensed on-site into high quality liquid and gaseous products.
Abstract: This invention relates to downhole resource extraction technology and may be used to recover crude oil, gas, asphalt, coal, radioactive and rare metals, nonferrous and precious metals, and underground sulfur. This method of downhole resource extraction includes: penetrating a productive formation with conventional wells; generating thermal energy directly within said formation on a capillary microlevel by running an electric current through a natural or artificially created conductive part of the formation to establish a high-temperature channel in said formation; and setting and maintaining a controllable design temperature within specified sections of the formation. The design temperature will be set based on the type of resource to be recovered and is intended to keep specified parameters of the target resource in a flowing state.