RU2701433C1 - Method of decomposing hydrogen sulphide on hydrogen and sulfur - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention can be used in processing oil and associated oil gases. Method of decomposition of hydrogen into hydrogen and sulfur involves treatment of aqueous solution of hydrogen sulphide with a magnetic field. Aqueous solution of hydrogen sulphide is treated with a magnetic field such that the treated liquid passes through opposite streams of magnetic field lines. Separated sulfur atoms are crystallized into elemental sulfur in laminar flow of solution.

EFFECT: invention widens the range of methods for producing sulfur and hydrogen from hydrogen sulphide.

1 cl, 2 ex

Description

METHOD FOR DECOMPOSITION OF HYDROGEN SULFUR TO HYDROGEN AND SULFUR

The claimed technical solution relates to the field of chemistry, namely to methods for the decomposition of hydrogen sulfide, and can be used to produce hydrogen and elemental sulfur from hydrogen sulfide, as well as in the preparation of oil and associated petroleum gases.

The well-known "METHOD OF CLEANING GASES FROM HYDROGEN SULFIDE" according to the patent of the Russian Federation for invention No. 2505344 dated 07/27/2014, publication date 01/27/2014, IPC B01D 53/14, C01B 17/04, including the supply of gases cleaned from hydrogen sulfide to the absorption zone in the oncoming traffic with an absorbent, and air into the regeneration zone in an amount that ensures the ratio of the partial volumes of air oxygen and hydrogen sulfide in the gases in the range of 0.5: 25: 1, the selection of purified gases from the upper part of the absorption zone, and sulfur from the lower regeneration zone, while together with cleaned gases in the absorption zone is served in air in an amount that provides a ratio of partial volumes of air oxygen to hydrogen sulfide of gases of 0.05h0.75: 1, and the total volume of supplied air to the absorption and regeneration zones provides a ratio of partial volumes of air oxygen to hydrogen sulfide that does not exceed the initial one.

Also known is the “METHOD FOR LOW-TEMPERATURE DECOMPOSITION OF HYDROGEN HYDROGEN WITH PRODUCTION OF HYDROGEN AND SULFUR" according to the patent of the Russian Federation for invention No. 2600375 of 08/13/2015, publication date 10/20/2016, IPC C01B 17/04, including passing hydrogen sulfide through a catalyst bed, while hydrogen sulfide is passed at a temperature 0-35 ° C through layers of catalyst and sulfur sorbent loaded in sequentially installed modules, moreover, stainless steel chips with a thickness of 0.1-0.2 mm and a length of 1.5-5.5 mm are used as catalyst, and the number of modules sulfur catalyst and sorbent leaves 6-12, wherein the last module in the resulting gas mixture is passed through a solution of ethanolamine for purification of hydrogen from hydrogen sulfide residue, followed by desorption of hydrogen sulfide from the ethanolamine solution, and desorption of sulfur from the sulfur sorbent is carried out with nitrogen at a temperature of 140-160 ° C.

The closest in technical essence is the "ELECTROCHEMICAL METHOD FOR PRODUCING ELEMENT SULFUR FROM HYDROGEN HYDROGEN IN ORGANIC SOLVENTS" according to the patent of the Russian Federation for invention No. 2516480 dated 03.07.2012, publication date 01/10/2014, IPC C01B 17/04, C25B 1/00, including electrolysis hydrogen sulfide on a platinum anode in an organic solvent, in the presence of a background electrolyte, at a temperature of 20-25 ° C and atmospheric pressure, while triethylamine is introduced into the organic solvent before electrolysis of hydrogen sulfide.

The solution described in the prototype is technologically difficult to implement, requires the use of expensive and inaccessible platinum, background electrolyte, as well as devices for its thermoregulation.

The objective of this technical solution is to create a new technologically advanced method for the decomposition of hydrogen sulfide into hydrogen and sulfur.

The problem is solved by the method of decomposition of hydrogen sulfide into hydrogen and sulfur, including two-stage dissociation of hydrogen sulfide in a solution, while the secondary dissociation of hydrogen sulfide with the formation of hydrogen and sulfur is carried out in a solution with water treated with a magnetic field; sulfur atoms liberated as a result of secondary dissociation crystallize into elemental sulfur during the laminar flow of the solution; treat the water with a magnetic field before preparing an aqueous solution of hydrogen sulfide or treat with an magnetic field an aqueous solution of hydrogen sulfide; the solution water or the aqueous solution is treated with a magnetic field so that the liquid to be treated passes through the oncoming magnetic flux lines.

The method of decomposition of hydrogen sulfide into hydrogen and sulfur is as follows.

The source of hydrogen sulfide is dissolved in water, for example, using a water-gas mixer. Hydrogen sulfide in an aqueous solution passes the first stage of dissociation. As a result of the primary dissociation of hydrogen sulfide, hydrogen ions and hydrosulfide ions are formed. The resulting aqueous solution is treated with a magnetic field so that the liquid to be processed passes through the oncoming magnetic flux lines. Magnetic field water can also be treated before hydrogen sulfide is introduced into it. Based on the data obtained during the experiments, the treatment of an aqueous solution of hydrogen sulfide or water to prepare a solution with a magnetic field provides the possibility of a second stage of dissociation of hydrogen sulfide, which is impossible under normal conditions. After the aqueous solution is treated with a magnetic field, the second stage of dissociation passes, as a result of which hydrogen ions and sulfur ions are formed. Crystallization of sulfur from the solution is carried out in a crystallizer. For the formation and precipitation of crystals of atomic sulfur provide a laminar flow of the solution. Separation of sulfur from the solution is optionally carried out mechanically, for example, using strainers. Purified water is sent to the beginning of the cycle.

The process of two-stage dissociation of hydrogen sulfide can be described as follows.

.The first stage of dissociation:

.

.The second stage of dissociation:

.

The claimed method is simple to implement, allows separation using a small amount of simple and affordable equipment.

An example implementation of the method of decomposition of hydrogen sulfide when removing hydrogen sulfide from an oil-water emulsion.

An oil-water emulsion containing dissolved hydrogen sulfide is mixed, if necessary, with an additional amount of water pretreated with a magnetic field, so that the free water content in the settled samples is more than 30%. Then the emulsion is sent to the mixer, where hydrogen sulfide is dissolved in the supplemented water. The nature of the fluid flow in the mixer is determined based on the percentage of water and oil, and is maintained at such a level that the mixture of water and hydrogen sulfide is maximized, and the formation of new stable water-oil emulsions does not occur or is minimized. Then this mixture is sent for additional magnetic field treatment so that the flow lines of the emulsion flow intersect as many opposing magnetic field lines as possible. After processing, the emulsion is sent to a sulfur crystallizer, where the laminar flow of liquid is maintained, which is necessary for crystallization of the sulfur atoms separated during dissociation into elemental sulfur. After that, the mixture of elemental sulfur and oil-water emulsion is sent to a desulfurizer, where sulfur is separated from the oil-water emulsion by mechanical means, for example, using strainers. The purified oil-water emulsion is sent to the consumer. At the last stage, it is possible to partially separate the water from the oil-water emulsion using a sump, for the subsequent use of the separated water in the first stage.

An example of the method of decomposition of hydrogen sulfide when removing hydrogen sulfide from associated petroleum gases

Associated petroleum gases containing hydrogen sulfide are sent to a water-gas mixer, where mixing occurs, followed by dissolution of the gases in water. Then the water-gas mixture is sent to the degasser of the solution, where, due to the varying degrees of solubility of hydrogen sulfide and hydrocarbon gases in water, hydrocarbon gases are separated from the solution, and most of the hydrogen sulfide remains dissolved in water. The separated gases enter a vortex gas separator, where a more complete drying of the gases takes place. The solution collected from the degasser and vortex gas separator is treated with a magnetic field so that the flow lines of the solution flow intersect as many opposing magnetic field lines as possible. After processing, the water mixture is sent to a sulfur crystallizer, where the laminar flow of liquid is maintained, which is necessary for crystallization of the sulfur atoms separated during dissociation into elemental sulfur. Then, a mixture of elemental sulfur and an aqueous solution is sent to a sulfur trap, where sulfur is separated from the water-oil emulsion by mechanical means, for example, using strainers. The purified water is sent to the water-gas mixer and is used cyclically.

The technical result of the claimed technical solution is to expand the arsenal of methods for the decomposition of hydrogen sulfide into hydrogen and sulfur due to the method of decomposition of hydrogen sulfide into hydrogen and sulfur, including two-stage dissociation of hydrogen sulfide in a solution, while the secondary dissociation of hydrogen sulfide with the formation of hydrogen and sulfur is carried out in a solution with water treated with a magnetic field ; sulfur atoms liberated as a result of secondary dissociation crystallize into elemental sulfur during the laminar flow of the solution; treat the water with a magnetic field before preparing an aqueous solution of hydrogen sulfide or treat with an magnetic field an aqueous solution of hydrogen sulfide; the solution water or the aqueous solution is treated with a magnetic field so that the liquid to be treated passes through the oncoming magnetic flux lines.

Claims (2)

1. A method of decomposing hydrogen sulfide into hydrogen and sulfur, comprising treating an aqueous solution of hydrogen sulfide with a magnetic field, characterized in that the aqueous solution of hydrogen sulfide is treated with a magnetic field so that the liquid to be processed passes through oncoming magnetic flux lines. 2. The method according to p. 1, characterized in that the released sulfur atoms crystallize in elemental sulfur during the laminar flow of the solution.