RU2645498C1 - Vacuum-building device of glycol regeneration unit - Google Patents

Abstract

FIELD: gas industry.

SUBSTANCE: invention relates to devices for creating a vacuum in the regeneration unit of an absorption gas drying apparatus by glycols and can be used in the gas industry. Apparatus according to the invention comprises a glycol regeneration unit including a vacuum column, a condenser with a cooled condensation and separation section, a pump for evacuation of water condensate and a vacuum pump, a glycol purification unit with a vacuum pump, and a fire-heating system. During operation of the device, the vapour extracted from the column are mixed with the spent barrier fluid supplied from the pump of the regeneration unit and sent to a condenser, where by cooling with a coolant water condensate discharged by the pumping pump is condensed. Non-condensed waste gases are withdrawn from the condenser, mixed with a mixture of spent barrier liquid and waste gas from the purification unit containing light glycol decomposition products supplied by the vacuum pump of the purification unit, and by the vacuum pump of the regeneration unit are supplied as a fuel component to a heating system, into which a balance amount of fuel is also supplied. Heating system is connected to the column and the cleaning unit by the coolant inlet / outlet lines. Part of the discharged water condensate is fed into vacuum pumps as barrier liquid.

EFFECT: technical result is the reduction of energy costs and the elimination of emissions of volatile products of decomposition of glycol into the atmosphere.

1 cl, 1 dwg

Description

The invention relates to devices for maintaining a vacuum in a two-stage vacuum glycol regeneration unit for glycol gas dehydration plants and can be used in the gas industry.

Known installation of gas dehydration [T. Bekirov, G. Lanchakov Gas and condensate processing technology. - M .: Nedra-Business Center LLC, 1999, p. 152, 162], consisting of a block of absorption drying and a block of single-stage regeneration of saturated glycol, including a vacuum pump as a vacuum creating device.

The main disadvantage of the known installations is the lack of a system for cleaning glycol from light decomposition products containing carboxylic acids, which leads to intense corrosion of the equipment.

Closest to the claimed invention is a method of regenerating a saturated solution of absorbent triethylene glycol (TEG) [RU 2307699, publ. 10.10.2007, IPC B01D 53/36], carried out in a regeneration unit with a heating system and a vacuum creating device, made in the form of vacuum pumps located on the exhaust gas output lines from the regeneration unit with a vacuum column and from a glycol purification unit with vacuum evaporator apparatus, cooling system and vapor condensation.

The disadvantages of this vacuum-generating device are environmental pollution by non-condensing volatile decomposition products of glycol (formic, acetic acid, etc.) contained in the exhaust gases, and high energy costs due to the single-stage compression of the exhaust gases of the glycol purification unit.

The objective of the invention is to reduce energy consumption and the elimination of emissions of volatile decomposition products of glycol in the atmosphere.

The technical result is the reduction of energy costs due to the connection in the regeneration unit of the exhaust gas supply line with a vacuum pump, the supply line of the spent gate fluid and the connection of vacuum pumps to each other, as well as the elimination of emissions of volatile decomposition products of glycol into the atmosphere by connecting the vacuum pump of the regeneration unit to the heating system exhaust gas line as a fuel component.

The specified technical result is achieved by the fact that in the proposed vacuum-generating device of the glycol regeneration unit equipped with a heating system with a fuel gas supply line, made in the form of vacuum pumps located on the exhaust gas outlet lines from the glycol purification unit and from the glycol regeneration unit with a column, a feature is the fact that the glycol regeneration unit is equipped with a condenser connected to the column with a vapor supply line and equipped with a water condensate discharge line, the pump outlet of the purification unit is connected it is connected to the exhaust gas supply line to the pump of the regeneration unit, which is connected to the exhaust gas supply line to the vapor supply line, and the exhaust gas supply line as a fuel component to the heating system, and the pumps are equipped with gas supply lines from the water condensate discharge line .

If necessary, the purification unit can be connected to the fuel gas supply line, which makes it possible to supply at least a part of it to blow off volatile decomposition products and increase the degree of glycol purification.

The heating system can be performed, for example, in the form of a fire boiler with a high-temperature organic coolant. The condenser can be made as a single unit with condensing and separation sections, or in the form of separate devices - a refrigerator and a separator. As vacuum pumps, for example, liquid ring pumps can be used.

The connection of the pump outlet of the purification unit to the exhaust gas supply line to the pump of the regeneration unit allows to reduce energy consumption due to the two-stage compression of the exhaust gases of the glycol purification unit.

The connection of the pump of the regeneration unit with the waste gate fluid supply line and the vapor supply line allows reducing energy consumption for vapor cooling due to the heat of water evaporation from the gate liquid, and its connection to the heating system of the exhaust gas supply line as a fuel component allows the burning of light glycol decomposition products and exclude their emissions into the atmosphere.

The proposed device comprises a glycol regeneration unit, including a vacuum column 1, a condenser 2 with separation and cooled condensation sections, a pump for pumping water condensate 3 and a vacuum pump 4, as well as a glycol purification unit 5 with a vacuum pump 6, and a fire heating system 7.

When the device is in operation, the vapors discharged from the column 1 via line 8 are mixed with the spent gate fluid supplied from the pump 4 via line 9 and sent to the condenser 2, where it is cooled with the refrigerant supplied through line 10, the condensed water condensate is pumped out by pump 3 along the line 11, and non-condensing exhaust gases are withdrawn from line 12, mixed with a mixture of spent shutter fluid and exhaust gases from unit 5 containing light glycol decomposition products supplied by pump 6 through line 13, and then exhaust gases containing ucts decomposition pump 4 via line 14 is fed as a fuel component in the heating system 7, which serves as the balance quantity of fuel through line 15. The heating system 7 is connected to the column 1 and the node 5 by lines 16, I / O coolant. A portion of the water condensate from line 11 is supplied to the pumps 4 and 6 as a gate fluid. At least a portion of the fuel gas can be supplied from line 15 to unit 5 via line 17 (indicated by a dotted line).

Thus, the proposed device can reduce energy consumption, eliminate emissions of volatile decomposition products of glycol into the atmosphere and can be used in industry.

Claims (2)

1. The vacuum generating device of the glycol regeneration unit, equipped with a heating system with a fuel gas supply line, made in the form of vacuum pumps located on the exhaust gas output lines from the glycol regeneration unit with a column and from the glycol purification unit, characterized in that the glycol regeneration unit is equipped with a condenser connected to the column with a vapor supply line and equipped with a water condensate discharge line, the outlet of the pump of the purification unit is connected to a line of supply of exhaust gases to the pump of the regeneration unit, which is connected the waste feed line buffer fluid with vapor feed line and the feed line of the flue gases as a fuel component - a heating system, wherein the feed lines are equipped with pumps buffer fluid from the output line of the water condensate. 2. The device according to claim 1, characterized in that the glycol purification unit is connected to the fuel gas supply line.

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