SU581885A3 - Method of mining hydrocarbons - Google Patents

Description

(54) METHOD FOR HYDROCARBONS SUPPLY

The invention relates to the oil industry, in particular to the recovery of hydrocarbons by implementing a moving combustion source in an oil-bearing formation.

The known method includes extraction of oil from an oil-bearing formation and its subsequent processing on the surface to extract light hydrocarbon fractions by cracking. However, as a result of surface processing of oil, a certain amount of waste is generated, in particular, of petroleum coke. The presence of such wastes is a serious environmental pollution problem, since coke itself, which is produced as a result of refining processes, has a relatively low industrial value. In addition, expensive ground installations are required for cracking.

The closest technical solution is the method of producing hydrocarbons, which consists in carrying out the process of burning hydrocarbons in the reservoir by pumping gas into the reservoir through injection wells that support the process of burning, igniting hydrocarbons and extracting them through production wells 2.

The disadvantage of this method is the absence of cracking in the formation, which allows the extraction of light fractions of hydrocarbons.

The aim of the invention is to extract light hydrocarbon fractions by cracking the formation.

This is achieved by the fact that after completion of the combustion process, hydrocarbons recovered through production wells are pumped through injection wells into the heated formation.

The method is carried out as follows.

Injection and production wells connected to it by means of holes are drilled to the hydrocarbon containing formation. Moreover, any well location system can be used. Next, gas is introduced into this reservoir to support the combustion and ignition of gas and hydrocarbons. Oxygen contained in the air can be used as a gas. After this, the in-situ combustion of hydrocarbons is carried out, which is carried out using well-known methods of both counter-current and direct-flow combustion. To do this, ignite the hydrocarbons in the reservoir, thereby creating a combustion front that is propelled along the reservoir towards the production wells. The combustion process develops and the heat generated thereby reduces the viscosity of the hydrocarbons in the reservoir and they move in the direction of the production wells, through which they do not select these products. The recoverable oil is stored in reservoirs located on the surface for subsequent injection into the reservoir.

Once in the reservoir, as a result of the combustion process, the amount of heat required for the thermal decomposition of the oil was accumulated, the gas supply was stopped and the oil was injected into the heated formation through injection wells. Due to the high temperature, thermal cracking occurs, resulting in a decrease in the molecular weight of the oil. A very heavy oil component (for example, coke) is deposited inside the reservoir, and lighter fractions pass to production wells, through which they are extracted to the surface. Gas is then reintroduced using conventional ignition methods, combustion is achieved, and thermal decomposition of heavy coke-like oil occurs. The process can be trapped.

Claims (2)

1. Aliyev li. S. N et al. Research in the field of catalytic and thermocatalytic processing of heavy petroleum raw materials. Baku, Publishing House of the Academy of Sciences of Azerbaijan SSR, 1961, p. 139-144. 2. US patent L 3,332489, cl. 166-11, published. 1967.