RU2733943C1 - Method of oil cleaning from hydrogen sulphide - Google Patents

Abstract

FIELD: oil and gas industry; technological processes.

SUBSTANCE: invention relates to methods of degassing oil during its preparation at fields and can be used in oil industry for removal of hydrogen sulphide from oil before its transportation via pipelines. Method of oil purification from hydrogen sulphide by gas desorption consists in blowing oil in gas flow. Sulphurous oil is fed into sulphurous oil purification column whereto associated gas is dispersed in hydrogen-sulphide pre-cleaned in apparatus for physical and chemical processes. Then, cleaned oil is removed for further pumping through the pipeline, and associated petroleum gas contaminated during the blow-off of oil by hydrogen sulphide is returned for purification into apparatus for carrying out physical and chemical processes to provide a closed cycle of cleaning oil from hydrogen sulphide with one volume of associated oil gas. Method of purifying oil from hydrogen sulphide provides effective purification of up to 96 % and enables to purify several volumes of high-sulfur oil by one gas volume, which reduces consumption of pure gas. At that, method implementation is possible without obligatory heating of oil.

EFFECT: dispersion of associated petroleum gas into oil enables to increase inter-phase interaction surface, intensify mass transfer between liquid and gaseous phases, which promotes efficient desorption of hydrogen sulphide from oil and enables to obtain purified oil practically free from hydrogen sulphide.

1 cl, 1 dwg, 1 tbl

Description

The invention relates to methods for degassing oil during its preparation in the fields and can be used in the oil industry to remove hydrogen sulfide from oil before transporting it through pipelines in order to reduce the corrosive effect on the pipeline of the pumped oil due to the hydrogen sulfide contained in it and to reduce the volume of gas, spent on oil refining.

A known method of purifying oil from hydrogen sulfide by gas desorption in a swirling gas-liquid flow, in which oil is dispersed into small droplets by a high-speed flow of compressed natural gas that does not contain hydrogen sulfide, by countercurrent multistage interaction of oil and gas. In each stage, direct-flow movement of phases is provided, and in general for the apparatus, counter-flow.

(Patent RU No. 2223135 dated 13.06.2001. IPC B01D 19/00).

However, this method requires large volumes of pure gas (up to 8: 1 volumes of gas per volume of oil), with a significant content of hydrogen sulfide in oil after stripping and at an actual temperature of the produced oil equal to 8-10 ° C, satisfactory results in high-quality stripping of hydrogen sulfide are unattainable.

The closest is the method for removing hydrogen sulfide from oil, in which the removal of hydrogen sulfide from oil is carried out by blowing it with hydrocarbon gas that does not contain hydrogen sulfide. The method involves heating oil, and the process is carried out in a bubble-type desorber.

(Gorodnov V.P., Kasparyants KS, Petrov A.A. Purification of oil from hydrogen sulfide. Oilfield business, 1972. 7. S. 32-34).

The disadvantage of this method is the mandatory heating of oil to 25 ° C, as well as the need to use significant volumes of pure gas - up to 50 per volume of oil.

The objective of the invention is to develop a method for purifying oil from hydrogen sulfide with a purification efficiency of up to 96%, which makes it possible to reduce the volume of consumed clean associated gas, while the implementation of the method is possible without the mandatory heating of oil.

The problem is solved by the method of purifying oil from hydrogen sulfide by gas desorption, which consists in stripping oil in a gas stream. The method differs in that sulphurous oil is fed into a column for purifying sulphurous oil by stripping, where the associated petroleum gas, previously purified from hydrogen sulfide, is dispersed in an apparatus for carrying out physical and chemical processes. Then the refined oil is withdrawn for subsequent pumping through the pipeline, and the associated petroleum gas contaminated during the stripping of oil with hydrogen sulfide is returned for cleaning to the apparatus for carrying out physicochemical processes to provide a closed cycle for purifying oil from hydrogen sulfide with one volume of associated petroleum gas.

The method is carried out in a closed cycle using one volume of associated petroleum gas.

Moreover, the dispersion, supply and dosage of associated petroleum gas previously purified from hydrogen sulfide for stripping into oil is carried out using a compressor.

In this case, the process is carried out without preheating oil, and associated petroleum gas is taken from the same volumes of oil produced.

When implementing this method for the purification of associated petroleum gas from hydrogen sulfide, it is possible to use known devices for carrying out physicochemical processes in a vortex gas flow, for example, the device described in RF patent No. 2465042, 03/27/2012.

The proposed technical solution in the claimed set of essential features makes it possible to implement a qualitatively new method for purifying produced oil from hydrogen sulfide, which is characterized by high efficiency, cost-effectiveness and simplicity.

FIG. presents a technological scheme that reflects the essence of the proposed invention.

The method is carried out as follows.

Dehydrated sulphurous oil through the inlet pipe 3 is fed to the column 2 for purifying sulphurous oil by stripping. Through the inlet pipe 5 and the gas disperser 7, the associated petroleum gas, previously purified from hydrogen sulfide in the apparatus 1 for carrying out physical and chemical processes in a vortex gas flow, is directed into the column 2 into the column 2. Then, the oil purified from hydrogen sulfide through the outlet pipe 4 from the column 2 is taken into an intermediate tank for subsequent pumping through the pipeline, and through the outlet pipe 6, associated petroleum gas contaminated with hydrogen sulfide after oil stripping is removed, which is returned through the inlet pipe 8 to the apparatus 1 for hydrogen sulfide removal. In this case, the output product - sulfur - is removed from the apparatus 1 through the branch pipe 10. Associated petroleum gas purified from hydrogen sulfide is fed through the outlet branch pipe 9 by the compressor 11 to the column 2, providing a closed oil purification cycle with the same volume of associated petroleum gas. The method is carried out without heating at reservoir temperature or at ambient temperature.

The proposed method for purifying oil from hydrogen sulfide was implemented at the Minibaevskaya TCU in an oil field. Oil was purified - with a hydrogen sulfide content of 340 ppm; after purification, the hydrogen sulfide content decreased to 13.5 ppm with a purification efficiency of 96%.

The cleaning results are shown in the table.

Thus, the proposed method with a purification efficiency of up to 96%, the implementation of which is possible without the mandatory heating of oil, allows one volume of gas to purify several volumes of high-sulfur oil, which reduces the consumption of pure gas. At the same time, the dispersion of associated petroleum gas into oil makes it possible to increase the interfacial surface of interaction, intensify the mass transfer between the liquid and gas phases, which contributes to the effective desorption of hydrogen sulfide from oil and makes it possible to obtain purified oil practically free of hydrogen sulfide.

Claims (1)

A method of purifying oil from hydrogen sulfide by gas desorption, which consists in stripping it in a gas stream, characterized in that sulphurous oil is fed into a column for purifying sulfurous oil by stripping, where associated petroleum gas, previously purified from hydrogen sulfide, is dispersed in an apparatus for carrying out physical and chemical processes, then the refined oil is withdrawn for subsequent pumping through the pipeline, and the associated petroleum gas contaminated during the stripping of oil with hydrogen sulfide is returned for cleaning to the apparatus for carrying out physicochemical processes to provide a closed cycle of oil purification from hydrogen sulfide with one volume of associated petroleum gas.

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