RU21152U1 - INSTALLATION FOR CLEANING LOW-PRESSURE GAS FROM HYDROGEN SULFUR - Google Patents

Abstract

Installation for purification of low-pressure gas from hydrogen sulfide, including an inlet separator, an absorber, an outlet separator, a pump and two solution tanks, characterized in that the pipeline of the purified gas through the separator at the inlet of the installation is connected to the lower part of the absorber, the upper fitting of which is connected to the separator the outlet of the installation, the upper nozzle of which is connected to the pipeline of purified gas, while the suction nozzle of the pump is connected to the capacity of the fresh solution, and the discharge nozzle of the pump is connected It is compatible with the upper part of the absorber, which is filled with a plastic nozzle in the form of Raschig rings, while the lower part of the absorber is connected to the waste solution collector, to which the pipeline from the lower nozzle of the separator at the outlet of the unit is connected.

Description

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Installation for the purification of low-pressure gas from hydrogen sulfide.

The inventive utility model relates to techniques for field gas treatment and can be used in gas, oil and related industries.

Known installation of gas purification from hydrogen sulfide, A.L. Cole, F.S. Riesenfeld, Gas purification, Gostoptekhizdat, M ,, 1962, p. 127. The Shell Oil installation consists of an absorber, stripper, circulation pump and tanks. The installation has disadvantages, the main of which are high energy costs due to the large loads on the circulation pump and the flow rate of the coolants during regeneration of the absorbent. The second disadvantage is the low coefficient of hydrogen sulfide extraction from gas.

The closest analogue of the claimed installation, adopted as a prototype, is the installation for the purification of natural gas from hydrogen sulfide. Utility Model Certificate No. 42-42, B01 D 53/02 publ. BPMTZ No. 6 1997

The installation includes an inlet separator, absorbers 1 and 11 of the gas cleaning stage, an outlet separator, a pump and two containers for solutions.

The main disadvantage of the prototype is the high metal consumption and high energy costs due to increased loads on the pump, since stage 1 and 11 absorbers are connected in series, and the gas pipeline being cleaned and the pump discharge pipe are connected to the lower part of the first absorber.

 "/ JThe purpose of the claimed utility model is to reduce energy consumption during operation of the installation and to reduce the metal consumption of the apparatus during the construction of the installation.

This goal is achieved by eliminating the absorber of the second gas purification stage and changing the piping of the absorber in which the pipe of the gas to be cleaned is connected to the lower part of the absorber, and the discharge pipe from the pump is connected to the upper part of the absorber, which is filled with a plastic nozzle in the form of Rashig rings.

The essence of the claimed utility model is that the gas to be cleaned is fed into the lower part of the absorber filled with Raschig rings, and the absorption solution is pumped into the upper part of the absorber. To prevent liquid from the well flowing into the absorber from entering the absorber, a separator is installed at the inlet of the installation, and to exclude the absorption solution from entering the purified gas pipeline, a separator is installed at the outlet of the installation, which is connected by a pipeline to the waste solution tank, which is also connected to the bottom of the absorber,

As the nozzle in the absorber, Rashig polyethylene rings are used, which eliminates their corrosion.

The technical result achieved by the implementation of the utility model is to reduce energy consumption during operation of the installation and reduce the metal consumption of the apparatus during its construction.

Installation for purification of low-pressure gas from hydrogen sulfide and carbon dioxide (Fig.) Includes a separator at the entrance to the installation 1, an absorber - 2, a separator at the outlet of the installation - 3, a pump - 4,

capacity for fresh mortar - 5 and capacity for spent mortar - 6.

Installation works as follows. Gas containing hydrogen sulfide through a separator 1 enters the lower part of the absorber 2, which is filled with Rashig rings. The gas purified from hydrogen sulfide and carbon dioxide is discharged from the unit through the separator 3. The absorption solution for extracting hydrogen sulfide from the gas is supplied to the upper part of the absorber 2 by a pump 4 from the tank 5. The spent solution from the lower part of the absorber 2 is discharged into the tank 6, where the liquid is periodically removed from separator 3.

Applicant Director

LLC “Sandy E.V. Drozdova

Claims (1)

Installation for purification of low-pressure gas from hydrogen sulfide, including an inlet separator, an absorber, an outlet separator, a pump and two solution tanks, characterized in that the pipeline of the purified gas through the separator at the inlet of the installation is connected to the lower part of the absorber, the upper fitting of which is connected to the separator the outlet of the installation, the upper nozzle of which is connected to the pipeline of purified gas, while the suction nozzle of the pump is connected to the capacity of the fresh solution, and the discharge nozzle of the pump is connected It is compatible with the upper part of the absorber, which is filled with a plastic nozzle in the form of Raschig rings, while the lower part of the absorber is connected to the waste solution collector, to which the pipeline from the lower nozzle of the separator at the outlet of the unit is connected.