RU2743436C2 - Installation for reagent-free disposal of sulfur-alkaline effluents (options) - Google Patents

Abstract

FIELD: treatment facilities.SUBSTANCE: group of inventions relates to installations for the reagent-free disposal of sulfur-alkaline effluents. The installation includes a heat exchanger and a steam-stripping column with lines for effluent infeed and sulfur dioxide outfeed. The first carbonation column is installed as a stripping column. The unit is equipped with a submersible burner, equipped with effluent infeed and effluent supply lines, on which the first heat exchanger is installed, flue gas outfeed lines, fuel infeed lines, and an exhaust air supply line connected to the sulfur dioxide outfeed line from the first carbonation column, which is equipped with an effluent supply line and is connected to a carbonated effluent supply line, on which a second heat exchanger is located, to the bottom of the oxidation reactor with a heterogeneous catalyst, and also connected to a flue gas outfeed line. The lower part of the reactor is equipped with an air supply line, and the upper part with an oxidation products outfeed line, on which a second heat exchanger and a separation device are located, equipped with an exhaust air supply line and connected by an oxidized effluent infeed line to the second carbonization column, connected to the flue gas outfeed line by supply line of its part equipped with a refrigerator and equipped with lines for off-gas and treated effluent outfeed.EFFECT: technical result consists in reagent-free and waste-free treatment of sulfur-alkaline effluents.2 cl, 2 dwg

Description

SUBSTANCE: invention relates to installations for purification of sulfur-alkaline effluents generated during alkaline purification of oil products, oil refining and other industries.

Known installation used in the method of neutralization of sulfide-alkaline effluents [RU 2587437, publ. 06/20/2016, IPC C02F 1/72, C10G 53/14, C10G 27/12], containing a mechanical filter, a volumetric flow meter, a dosing pump, a mixing unit with industrial water, a tubular reactor for catalytic oxidation with an aqueous solution of hydrogen peroxide in the presence of homogeneous catalyst and a tank reactor.

The disadvantages of the known installation are the pollution of effluents with a catalyst and the use of an expensive explosive reagent - hydrogen peroxide - as an oxidizer.

The closest in technical essence is a method of purification of sulfide-alkaline wastewater [RU 2460692, publ. 09/10/2012, IPC C02F 1/24, C02F 9/14, B01D 3/38, C02F 103/18], carried out on a plant including a waste heat exchanger, waste mixers with carbon dioxide and sulfuric acid, and stripping (desorption) a column equipped with a sour gas outlet line with a refrigerator and a separator.

The disadvantages of this installation are the use of water vapor and reagents (carbon dioxide and sulfuric acid), as well as the production of waste-sulfur dioxide, requiring further disposal.

The objective of the present invention is reagent-free and waste-free treatment of alkaline sulphide effluents.

The technical result is reagent-free and waste-free purification of alkaline sulphide waste by equipping the installation with a reactor with a heterogeneous oxidation catalyst, as well as an apparatus with a submerged burner as a source of carbon dioxide.

Two installation options are offered. The technical result in the first embodiment is achieved by the fact that in the proposed installation, which includes a heat exchanger and a stripping column with lines for supplying effluents and removing sour gas, a feature is that the first carbonization column is installed as a stripping column, and the unit is equipped with a submersible burner equipped with sewage inlet and wastewater supply lines, on which the first heat exchanger is installed, flue gas outlet lines, fuel supply lines and an exhaust air supply line connected to the sour gas outlet line from the first carbonation column, which is connected to the wastewater supply line, is equipped with a carbonated wastewater supply line, on which the second heat exchanger and the oxidation reactor with a heterogeneous catalyst are located, and is also connected to the flue gas outlet line, while the lower part of the reactor is equipped with an air supply line, and the upper part with an oxidation products outlet line, on which the second heat exchanger and separation device are located in, equipped with an exhaust air supply line and connected by an oxidized waste supply line with a second carbonization column connected to a flue gas outlet line by a flue gas supply line of its part equipped with a refrigerator and equipped with an exhaust gas and treated waste outlet lines. The second variant of the installation is distinguished by the connection of the burner to the sour gas outlet line and to the air supply line.

The unit can be equipped with a device for preliminary treatment of wastewater from mechanical impurities and oil products, an afterburner of off-gases, a refrigerator for oxidized wastewater, a cooling unit for an oxidizing reactor to maintain an optimal process temperature, a device for removing residual mechanical impurities from treated wastewater (for example, a filter), a circulation system an oxidation promoter, which is fed into the stream of carbonized effluents in front of the reactor and is isolated in a separation device, as well as an air supply line with a lack of oxygen to ensure stable fuel combustion in an apparatus with a submerged burner.

The oxidizing reactor contains a heterogeneous catalyst for the oxidation of sulfur compounds. The carbonization columns can be equipped with packed or poppet contact devices, and the burner can be made in the form of a device for catalytic oxidation or fiery combustion of fuel. The separation device can be manufactured, for example, as a two- or three-phase separator. Refrigerators can be made in the form of air or water coolers. Hydrocarbon fractions can be used as an oxidation promoter. The rest of the installation elements can be any device for the corresponding purpose known from the prior art.

Equipping the unit with a reactor with a heterogeneous oxidation catalyst allows the oxidation of hydrosulfide, sulfidions and mercaptides to non-toxic compounds with atmospheric oxygen, thereby ensuring reagent-free and waste-free treatment of alkaline sulphide effluents, and equipment of the unit with an apparatus with a submersible burner makes it possible to obtain carbon dioxide for the primary carbonization of effluents, carried out in the first carbonization column to obtain sulfur dioxide, then sent to combustion, and for secondary carbonization of effluents, carried out in the second carbonization column in order to neutralize alkaline effluents with a decrease in pH to 6.5-8.5.

The proposed installation in both versions (Fig. 1, 2) includes carbonization columns 1 and 2, reactor 3, apparatus 4 with a submerged burner 5, heat exchangers 6 and 7, cooler 8 and separation device 9. The dotted line shows the possible equipment of the installation with a device for preliminary cleaning drains 10, a second refrigerator 11, an afterburner 12, a filter 13, a cooling unit 14, an oxidation promoter circulation line 15 and an air supply line 16 (in the first embodiment).

When the unit is operating in the first version, sulfur-alkaline wastewater supplied through line 17 is heated in heat exchanger 6 and apparatus 4 and through line 18, after cooling in refrigerator 6, is fed into column 1, where primary carbonization of wastewater is carried out, blowing off light sulfur compounds with a part flue gas supplied via line 19 from the apparatus 4. The stripped sulfur dioxide is fed via line 20 to an exhaust air supply line 21 or directly to a burner 5 (not shown), to which fuel is also supplied via line 22. Carbonated effluents are removed from the bottom of the column 1 through line 23, heated to the temperature of catalytic oxidation in heat exchanger 7 and sent to the bottom of the reactor 3 together with air supplied through line 24. In the reactor 3, in the presence of a heterogeneous catalyst, oxidation of sulfur compounds is carried out, not previously column 1, to obtain non-toxic compounds. Oxidation products via line 25 are removed from the top of the reactor 3, cooled in heat exchanger 7 and separated in device 9 into exhaust air, which is discharged via line 21 and oxidized effluents, which are fed via line 26 for re-carbonization to the top of the column 2, to the bottom which, after cooling in the refrigerator 8, the remainder of the flue gas is fed through line 27. From the top of the column 2, off-gas is discharged through line 28, and from the bottom through line 29 - treated effluents. The dotted line shows: possible preliminary purification of sulphurous-alkaline wastewater in device 10 from mechanical impurities and oil products discharged through lines 30, cooling oxidized wastewater in refrigerator 11, afterburning of waste gases in furnace 12, filtration of treated wastewater in filter 13, cooling of reactor 3 using a unit 14, supply of the circulating oxidation promoter via line 15 to line 23 and air feed via line 16 (in the first embodiment). The operation of the second option is distinguished by the supply of sulfur dioxide to the burner 5 through line 20, as well as air through line 16.

Thus, the proposed installation allows for reagent-free and waste-free purification of sulfur-alkaline effluents and can be used in industry.

Claims (2)

1. Installation of reagent-free utilization of sulphurous-alkaline wastewater, including a heat exchanger and a stripping column with lines for supplying wastewater and removing sulfur dioxide, characterized in that the first carbonization column is installed as a stripping column, and the unit is equipped with a submerged burner apparatus equipped with lines for entering wastewater and sewage supply, on which the first heat exchanger is installed, by flue gas outlet lines, fuel supply and an exhaust air supply line connected to the sour gas outlet line from the first carbonization column, which is equipped with a wastewater supply line and connected to a carbonated waste supply line, on which the second heat exchanger is located , with the bottom of the oxidation reactor with a heterogeneous catalyst, and is also connected to the flue gas outlet line, while the lower part of the reactor is equipped with an air supply line, and the upper part with an oxidation products outlet line, on which a second heat exchanger and a separation device are located, equipped with a line along supplying exhaust air and connected by a supply line of oxidized effluents to a second carbonization column connected to a flue gas outlet line by a supply line of its part equipped with a refrigerator and equipped with lines for an exhaust gas and treated effluent discharge. 2. Installation of non-reagent disposal of sulphurous-alkaline effluents, including a heat exchanger and a stripping column with lines for supplying effluents and removing sulfur dioxide, characterized in that the first carbonization column is installed as a stripping column, and the unit is equipped with an apparatus with a submerged burner equipped with lines for entering effluents and sewage supply lines, on which the first heat exchanger is installed, by flue gas outlet lines, fuel supply, air supply and a line connected to the sulphurous gas outlet line from the first carbonization column, which is equipped with a waste water supply line and connected by a carbonated waste supply line, on which the second heat exchanger is located, to the bottom of the oxidation reactor with a heterogeneous catalyst, and is also connected to the flue gas outlet line, while the lower part of the reactor is equipped with an air supply line, and the upper part with an oxidation products outlet line, on which a second heat exchanger and a separation device are located, equipped with a waste gas outlet line. air and connected by an oxidized waste supply line to a second carbonization column connected to a flue gas outlet line by a flue gas supply line of its part equipped with a refrigerator and equipped with an exhaust gas and treated waste outlet lines.

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