SU1674929A1 - Adsorbent regeneration unit - Google Patents

Abstract

The invention relates to absorption regenerators, in particular zeolites, used to adsorb hydrogen sulfide from low-sulfur gases with a high C02 / H2S ratio (1), and can be applied in the gas, chemical and petrochemical industries. The installation allows to reduce energy consumption due to the formation of a closed cycle of gas stripping gas. The installation contains an adsorber (Hell) 1 operating at the H2S gas purification stage, an adsorber (Ad) 2 operating at the regeneration stage, furnace, compressor, absorber (Ab) and desorber. The line of purified gas passes from Ab to the compressor and through the furnace Ad 1, the raw gas line of the stripping from Ad 2 to Ab, the line of regenerated and saturated absorbents, respectively, from desorber to Ab and vice versa CO

Description

The invention relates to installations for the regeneration of adsorbents, in particular zeolites, used to adsorb hydrogen sulfide from low-sulfur gases with a high C02 / H2S ratio (1), and can be applied in the gas, chemical and petrochemical industries.

The purpose of the invention is to reduce energy consumption by forming a closed circulation cycle (aza

The drawing shows the installation diagram

The installation includes an adsorber 1 operating at the stage of purification of gases from H2S, an adsorber 2 at the regeneration stage, a furnace 3, a compressor 4 an absorber 5, a desorber 6. A line of purified gas passes from the absorber 5 to the compressor (open 4 and 2 Lines ig) (And the stripping gas from the adsorber 2 to the absorber 5, the line of regenerated and saturated absorbents, respectively, from desorber 6 to the absorber 5 and vice versa.

The installation works as follows.

Hydrocarbon gas containing H2S and CO2 (CO2 / H2S 1) is fed to adsorber 1, where it is purified from H2S

After the breakthrough, the S adsorber is switched to regeneration / drainage and the temperature at the hydropower stage is determined by the parameters of gas fcp / baring for adsorption. gas flow heated. 3 to 250 350 ° C. The pressure on the stdpr TRNRP.MTSII zeolite is equal to the pressure of h l me or below

ABOUT

Vj

4 Yu GO

about

The recovery gas from adsorber 2, after cooling, is fed to the absorber 5 for purification from hydrogen sulfide using an amine absorber. The purified regeneration gas of the adsorbent from absorber 5 by compressor 4 is again fed through furnace 3 to regenerate zeolite to adsorber 2. Zeolite regeneration is continued until there is no HiS and stripping gas leaving adsorber 2. Then it is switched to adsorption of source gas Desorber 6 Acid gas is sent to sulfur for processing.

For the initial filling of the closed cycle of the zeolite regeneration, as well as to compensate for the losses, a part of the purified or HjS commercial gas is used. Circulating gas loss is 0 1 0.5% by volume

Thus, this installation allows organizing a closed cycle of zeolite stripping gas circulation between adsorber 2 and absorber 5 Using the adsorbent circulating in a closed cycle to remove the HzS and CO-purified gas flow as a stripping agent reduces the required amount of gas thief of amine due to the insignificant content of C02 in the zeolite regeneration gas, since the closed loop only requires periodic replenishment of the product (ase, reduce the consumption of peer and electric

five

0

five

0

troenergy for the desorption of acid gases and the transfer of the amine solution; to increase the H2S concentration in them to more than 80%, which will allow applying the Claus process for their processing.

To implement this unit, the regeneration of the absorbent will require insignificant capital expenditures (installation of the compressor and separation of the paths of regeneration of the adsorbers).

In this plant, the circulation ratio of the amine solution is reduced 2.2 times and the steam consumption for its regeneration is 2.6 times.

At the same time, the H2S content in the acid gas is increased by more than 3 times, which makes it possible to improve the economic performance of the sulfur production process and the sulfur yield.

Claims (1)

Invention Formula An adsorbent regeneration unit comprising an adsorber connected by a stripping gas line to an adsorber equipped with a purified gas line and a connected regenerated and saturated absorbent to a desorber line, characterized in that, in order to reduce energy costs by forming a closed cycle of stripping gas, the absorber is connected to the adsorber by a line of purified gas, which is equipped with a compressor installed on it.