SU712113A1 - Method of purifying gas blasts from chloroprene - Google Patents

Description

even improving the process of desorption from cycle to cycle.

Desorption with an inert gas or vapor-air mixture instead of water vapor eliminates the stage of sorbent drying and the formation of waste water and does not significantly affect the removal of wood-based antioxidant - polymerization inhibitor from the pores of the activated carbon.

When the adsorption temperature decreases to minus 25 ° C, the dynamic activity of the coal increases to 33%, which makes it possible to reduce the amount of coal used and the dimensions of the adsorber.

Purification of chloroirene is carried out in a double-adsorber unit, which allows to achieve process continuity. The desorbent passes through a low-temperature condenser cooled from -10 to -78 ° C, where incomplete cutting off of the target product occurs, and then mixed with the vapor-air mixture supplied to the adsorption. This eliminates the problem of cleaning the desorbent from chloroprene residues.

Chloroprene condensed in condensers is continuously or intermittently disposed of.

When the temperature of the chloroprene condenser rises above minus 30 ° C, a high boiling liquid, such as dibutyl phthalate, N-methylpyrrolidone, tricresyl phosphate, and organosilicon liquids, is introduced into the condenser.

Example. Activated carbon of the AG type, impregnated with 2% wood resin antioxidant - polymerization inhibitor, is poured into the adsorber.

The steam-air mixture with a content of 10,000 mg / m of chloroprene is passed through an adsorbent layer with a height of 0.4 m at a speed of 0.5 m / s at a temperature of 30 ° C. For more than 2 hours of work, the slip of chloroprene after the adsorbent above the maximum permissible concentration is not observed.

Desorption is carried out with nitrogen at a temperature of 155 ° C and its transmission rate of 0.06 m / s. In this case, the bulk of the adsorbed chloroprene is desorbed in 1.5 hours. The desorbed chloroprene is condensed at a temperature of minus 78 ° C.

Polymerization of chloroprene on carbon is not observed for 20 adsorption / desorption cycles.

The table summarizes the examples of the implementation of the method for purifying chloroprene gas emissions.

Claims (2)

Claim 1. The method of cleaning gas emissions from chloroprene, including its sorption on activated carbon, desorption and recycling of chloroprene, characterized in that, in order to increase the productivity of the process, sorption is carried out on activated carbon, previously soaked in 0.1-2 mass. % wood-resin antioxidant inhibitor of the polymerization of chloroprene. 2. The method according to π. 1, characterized in that, in order to exclude education 30 wastewaters, chloroprene desorption is carried out with an inert gas at a temperature of 100–180 ° C.