PL109172B2 - Method of producing sodium cyanide from sewage containing cyanide compounds - Google Patents

Description

The subject of the invention is a method for the production of sodium cyanide from sewage containing cyanide compounds, produced in the process of sewage treatment by the ion exchange method. One of the methods used to purify cyan-alkali sewage, for example in galvanic processes, is ion exchange. The applied ion exchange process consists in passing the sewage sequentially, by the deposit of strongly acid cation exchanger and strongly basic anion exchanger or by a suitably selected mixture of weakly and strongly basic anion exchanger and then by the deposit of weakly acid cation exchanger. The exhausted cation exchanger is regenerated with a solution of hydrochloric or sulfuric acid, and the post-regeneration solution is directed to the sewage system. For the regeneration of the anion exchanger, a sodium lye solution is used, resulting in a post-regeneration solution being a sodium cyanide concentrate with a large excess of liquor or a solution containing a cyanide mixture sodium and cyanide complexes in the liquor solution, in the case of using a mixed anion exchanger bed. The obtained post-regeneration solution is either recycled after appropriate preparation directly for production or concentrated and then sent to production. By using ion exchange to purify cyano-alkaline plating wastewater, water is relatively easily recovered. The recovery of chemicals is more complicated, as solutions with a low concentration of CN are obtained. "In those processes where cyanide recovery is chosen, these solutions are concentrated by evaporation, which is a cumbersome procedure, mainly due to the fact that the installations for this The heat supply is also problematic, and due to the small amounts of concentrated solution, this procedure is also uneconomical. The method according to the invention allows for a significant simplification of the procedure. The essence of the method according to the invention consists in the fact that the slug obtained as a result of regeneration is In the process of purifying sewage containing cyanide compounds, the solution is acidified to a pH of 0.5-3.0 and then air is passed through it, which is then directed to the absorbers filled with concentrated, preferably 30-43% sodium hydroxide. As a result of the process carried out in this way, air blows out the hydrogen cyanide solution, which is next It is not adsorbed in the lye solution, forming sodium cyanide. While substantially all of the hydrogen cyanide will be absorbed in one absorber, it is preferable to use two absorbers. It is preferable to provide airflow by creating a negative pressure at the absorber outlet, preferably by installing an ejector on the drainage line for draining water from the ion exchanger to washing tubs. The rinsing water is then mixed with the air in the ejector, which ensures better mixing in the rinsing tubs. The invention will be explained in more detail using an example. 1 dm3 of 98% H2SO4 was added to the reactor containing 10 dm3 of wastewater obtained from the regeneration of an ammonite bed with a volume of 7 dm3, exhausted by galvanizing cyano-alkali wastewater, 1 dm3 of 98% H2SO4 was added, as a result of which a solution opH = 2.5 was obtained. Next, the ejectors were turned on and installed on the pipeline leading demineralized water from the ion exchange installation to the washing tubs. This allowed air to flow through the wastewater in the reactor and then through two absorbers filled with 40% sodium liquor, installed between the reactor and the ejector. Purified of cyanide compounds, the air, after passing through the absorbers, is sucked in by jets and then mixed with water, directed to the rinsing baths. After 30 minutes the ejectors were turned off, the effluents, practically devoid of hydrogen cyanide, after neutralization, were discharged to the sewage system. The operations were repeated seven times. The result was a 34% NaCN solution in the first absorber and 1% in the second absorber. The solution from the first absorber was suitable for use in making a bath. In the next cycle, the second absorber was connected first. Patent claim The method of producing sodium cyanide from wastewater containing cyanide phases, produced in the process of cleaning some wastewaters by the ion exchange method, characterized by the fact that the ammonite solution obtained as a result of regeneration with sodium lye acidifies the ammonite bed. to a pH of 0.5-3.0, then it is blown with air, which is then directed to the absorbers filled with concentrated, preferably 30-43% sodium hydroxide solution, the preferred air flow by creating a vacuum at the outlet absorber, preferably by ejectors installed on the conduit discharging demineralized water from the ion exchange installation to the washing tubs. Typographer. UP PRL, circulation 120 + 8 Price PLN 45 PL

Claims (1)

1. Patent claim A method for the production of sodium cyanide from the wastewater containing cyanide phases, resulting from the treatment of some wastewaters by the ion exchange method, characterized in that the ammonite solution obtained as a result of regeneration with sodium lye of the ammonite bed is acidified to a pH of 0.5-3 , 0, and then it is blown with air, which is then directed to the absorbers filled with concentrated, preferably 30-43% sodium hydroxide solution, the preferred air flow by creating a negative pressure at the outlet of the absorber, preferably by nozzles installed on the conduit draining demineralized water from the ion exchange installation to the washing tubs. Wash. Typographer. UP PRL, circulation 120 + 8 Price PLN 45 PL