RU2033969C1 - Plant for withdrawal of hydrogen sulfide - Google Patents

Abstract

FIELD: plants for withdrawal of hydrogen sulfide from internal water. SUBSTANCE: plant for withdrawal of hydrogen sulfide operates as follows:compressor 4 supplies air through pipeline 5 to aerator 6 which atomizes it at the level of treated layer of water containing hydrogen sulfide. When air bubbles pass treated layer of water, air is replaced with hydrogen sulfide. Bubbles carrying hydrogen sulfide are collected by vessel. Gas is separated from moisture by medium separator and supplied through discharge pipeline 7 to column-separator 8 where heavy hydrogen sulfide is separated from light air. Hydrogen sulfide is supplied through valve 9 to its accumulator, and air, through valve 10 and air filter 11 is directed to exhaust pipe 12. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to installations for the extraction of hydrogen sulfide from waters containing it.

 A known installation for the extraction of hydrogen sulfide from water containing it according to ed. N 782822, CL B 01 D 19/00, 1980.

 Closest to the proposed one is a plant for extracting hydrogen sulfide from water containing it, including a tank with a discharge pipe, a hydrogen sulfide storage device and an aeration system containing an aerator, a supply pipe and a compressor.

 However, the known installations in the processing of water extracted from the depths of the rich in hydrogen sulfide waters are not effective enough, since they allow extracting hydrogen sulfide from them only on the surface, under stationary conditions. Their operation in this regard involves the cost of transporting the treated water from depth to the surface, as well as the cost of compressing hydrogen sulfide to use pressure, since the production of hydrogen sulfide on the surface occurs under atmospheric pressure. In this case, clogging of the upper layers of water that does not carry hydrogen sulfide occurs when the treated water is discharged with unrecovered hydrogen sulfide residues; therefore, additional costs are required for pumping the processed water in depth.

 The aim of the invention is to increase efficiency by providing the ability to extract hydrogen sulfide from deep water, while there is no need to transport water to the surface and back, and hydrogen sulfide is compressed.

 For this, a plant for extracting hydrogen sulfide from waters containing it, including a tank with a discharge pipe, a hydrogen sulfide storage tank and an aeration system containing an aerator, a supply pipe and a compressor, is additionally equipped with sequentially located media separator and a separation column installed between the tank and the hydrogen sulfide storage tank and connected between each other by a discharge pipe, and the tank is open, bell-shaped and installed below the water level, and the aerator is installed neither e capacitance on the processed layer thickness laterally offset relative to the geometric center of the container against the direction of water flow.

 The drawing shows a structural diagram of the installation.

 A plant for extracting hydrogen sulfide from water containing it includes a tank 1 made open, bell-shaped and installed below the water level, equipped with a discharge pipe 7, a hydrogen sulfide storage device 3 and an aeration system containing an aerator 6 installed below the tank by the thickness of the treated water layer with lateral displacement relative to the geometric center of the tank against the direction of flow, the supply pipe 5 and the compressor 4, as well as sequentially located separator 2 environments and the column separator 8, interposed between the tank and the hydrogen sulfide storage tank and interconnected by a discharge pipe. The installation also contains a hydrogen sulfide valve 9 installed between the hydrogen sulfide output of the separator column and the input of the hydrogen sulfide storage ring, as well as a serial connection of the exhaust air valve 10, air filter 11, and ventilation pipe 12 connected to the air outlet of the separator column.

 During operation of the installation, the compressor 4 delivers air through the inlet pipe 5 to the aerator 6, which sprays it at the maximum depth of the treated layer of hydrogen sulfide-containing water. When air bubbles pass through the treated water layer, air is replaced by gas dissolved in water, in this case hydrogen sulfide, to a level at which the ratio of their partial pressures in the bubbles is approximately equal to this ratio in the treated aerated layer, i.e. almost complete substitution occurs. Bubbles carrying hydrogen sulfide are collected with a capacity of 1, the gas is separated from the moisture by a medium separator 2 and through a discharge pipe 7 enters a separator column 8, where the heavier hydrogen sulfide is separated from the lighter air. When the discharge pressure separator column reaches the outlet hydrogen sulfide valve 9 and the exhaust air valve 10 are activated. Hydrogen sulfide through the lower outlet of the separator column 8 and valve 9 enters the hydrogen sulfide reservoir 3, at 100% filling of which the static pressure in it is approximately equal to the hydrostatic pressure at a depth where the medium separator 2 is installed. Air through the upper outlet of the separator column 8, the exhaust air valve 10 and the air filter 11 enters the ventilation pipe in communication with the atmosphere.

 Thus, it is possible to extract hydrogen sulfide from deep water, thereby increasing the efficiency of the installation. It does not require transportation of deep water to the surface and waste water in depth, and only hydrogen sulfide and air used for aeration are transported. Hydrogen sulfide is obtained under pressure close to the pressure of the reservoir from which it is extracted. Along with the energy effect, an environmental effect is achieved, since clogging of the surface with hydrogen sulfide is prevented.

Claims (1)

 INSTALLATION FOR THE REMOVAL OF HYDROGEN SULPHIDE from the waters containing it, including a tank with a discharge pipe, a hydrogen sulfide storage device and an aeration system comprising an aerator, a supply pipe and a compressor, characterized in that, in order to increase efficiency by ensuring the extraction of hydrogen sulfide from deep waters, the installation is additionally equipped sequentially arranged media separator and column separator installed between the tank and the hydrogen sulfide storage tank and interconnected by a discharge pipe rovodom, wherein the container is open, bell-shaped and is installed under the water level, and the aerator is installed below the container to the processed layer thickness laterally offset relative to the geometric center of the container against the direction of water flow.