SU701673A1 - Apparatus for the purification of hydrocarbon gases from hydrogen sulphide - Google Patents

Description

The invention relates to the design of absorption plants and can be used to purify hydrocarbon gases from hydrogen sulfide. A gas cleaning device is known, which is a vertical mass-exchange apparatus with vertical grids, gas and liquid distributors, and reagent inlet and outlet nozzles, in which there are partitions between the vertical grids, each adjacent KOTOEWX pair forms a zigzag like 13. There is a disadvantage of the known device is the complexity of its design. A device for cleaning hydrocarbon gases from hydrogen sulphide is also known, which includes a tank for absorbent that is sequentially interconnected by pipes, metering and mixing pumps, separation pumps interconnected with the tank for absorbent, and an absorber (2. A disadvantage of the known installation is that the absorbent is injected into the absorber in a finely dispersed state, as it is saturated with hydrogen sulfide, loses its dispersion and, consequently, its activity. In order to intensify the process and simplify the design The absorber housing is made in the form of a horizontal broken, for example, zigzag pipe connected at its ends to the separators and a mixing pump. The drawing shows the technological scheme of the installation. The installation for purifying hydrocarbon gases from hydrogen sulfide consists of an absorber 1 made in the form of a horizontal set broken, for example , zigzag pipe to which the mixing pump 2 is connected, mounted on the inlet end 3 of the absorber, the outlet end 4 of which is subsequently atelno 5 connected with the separator gas separator 6, the absorbent capacity of 7 for the spent absorbent and a capacity of 8 for the purified absorbent through the regeneration unit 9 of the absorbent. The dosing pump 10 serves to supply the cleaned absorbent from the tank 8 to the mixing pump 2. The installation works as follows. The gas destined for hydrogen sulfide removal enters the inlet end 3 of the absorber 1, into which an absorbent is injected from the tank 8 by the metering pump 10 through the stirring pump 2. The rate of movement of the gas with the absorbent in the absorber 1 is maintained at a value sufficient to keep the sprayed absorbenate in suspension. As the gas moves with the absorber along the absorber 1, the absorbent becomes saturated with hydrogen sulphide and gradually loses its activity. However, with each change in the flow control (zigzag bends of the absorber) due to its scaling, the dispersion of the absorbent, each time restores b. At the outlet end 4, the absorbent is completely saturated with hydrogen sulfide with hydrogen sulfide, and this mixture of cleaning j and itacbatJRjjHoro with hydrogen sulfide absorbent enters the separator 5 to separate them. The purified gas is transported further, and the absorbed absorbent enters the separator 6, in which the dissolved in the absorbent gas separates. From the Separator 6, the absorbent is fed into the container 7p from which it enters the

Claims (2)

TA 74 regeneration unit 9 and further into tank 8 for the cleaned absorbent. When using this installation, the gas productivity per 500 thousand m / day of the cost of cleaning 1000 Mhaz decreases by a factor of 8, and the capital fibers by 1.8 times as compared with conventional installations. The invention The installation for purification of hydrocarbon gases from hydrogen sulfide, comprising successively interconnected pipelines 1 and a container for an absorbent, metering and mixing pumps, separators interconnected to both a container for an absorbent, and an absorber, characterized in that, in order to intensify process and simplify the design, the absorber body is made in the form of a horizontal broken, for example, zigzag pipe connected at its ends to the separators and mixing pump . Sources of information taken into account during the examination 1. USSR author's certificate No. 394068, cl. On 01 D 53/18, 1973. 2. USSR author's certificate No. 387977, cl. On 01 D 53/14, 1971. (Prototype).