SU842051A1 - Method of biochemical purification of waste water - Google Patents

Description

Does the invention relate to methods? biochemical wastewater treatment using microorganisms, in particular wastewater from the enterprises of the chemical-photographic industry containing silver ions.

There is a method of biochemical purification of wastewater using sulfate-reducing bacteria (SBB), involving the use of chopped cane as organic food Π] ·

However, due to the complexity of the technical solution, this method cannot be used to treat large volumes of industrial wastewater.

Closest to the proposed technical essence is a method of biochemical wastewater treatment, which consists in contacting the water treated by the WSS with the addition of household liquid, which serves as a source of organic food Gr ^.

However, the method has a low degree of purification from Ge * ¹ (90%) and SO ² (94%).

Another drawback is that the addition of household liquid to the treated effluents leads to additional costs for the cleaning of chemical water disinfection facilities.

The purpose of the invention - an increase ste_ fines wastewater from silver ions ^e.

This goal is achieved in that gelatin is used as organic food.

. The use of gelatin as an organic food for SVB provides a high degree of purification of effluents from silver ions.

P r and m er. Biochemical purification is carried out in a laboratory setup consisting of a tank for the cultivation of microorganisms (bioten) with a volume of Yul, a raw material tank, and a settling tank. The process is carried out continuously for 10 days under anaerobic conditions with constant circulation of activated sludge. The flow rate of the liquid is 0.5 l / h. The temperature in the bio-shade is 22-25 ° C, grieve mix • Vanya no more than 96 rpm. As * 5 transporting gas, an iyot is used. δ as the base culture. take an SVB culture isolated from the formation water of the Romashkinskogb oil field. The accumulated culture used by SVB is preliminarily adapted to various silver concentrations. The initial concentration of SVB 5x10 ^ cells in 1 ml. In the cultivation of SVB, Postgate nutrient medium, which has

Soslav, g / l: KN _y P0 ₄ 0.5 NH ₄ C B 1,0 CaSO ₄ -2H ₂ 0 0.79 MgSO 3.76 Lactate Sa 2.0 NaHCOij 0.01 FeS0 ₄ Trace As a model liquids

subjected to biochemical purification, Postgate's medium also serves, in which the organic component of calcium lactate 15 is replaced with gelatin, and ammonium chloride is replaced by ammonium sulfate.

Silver ions are additionally introduced into the model fluid.

An SVR culture under anaerobic conditions 20 reduces sulfates to hydrogen sulfide, which precipitates silver ions (a black precipitate forms on the walls of the bioten). Data on biochemical treatment are shown in the table.

The composition of the model The concentration of Ad ⁺ ions in purified water, mg / l Degree of purification % liquids mg / l gelatin Hell ⁺ ions . 250 fifteen Missing 100 250. 25 Missing 100 250 fifty 10 80 500 fifty 2,5 95 500 55 4.4 92 300 fifty 7.5 85

As can be seen from the table, the highest degree of purification of effluents from silver ions is observed when the content of the latter is up to 25 mg / l (degree of purification 100%). With an increase in the concentration of ions of silver, the degree of purification decreases; with the content of Ad ions * 50 mg / L, the degree of purification is 95%.

The gelatin concentration of 250-500 mg / l corresponds to the actual concentration in the production effluent.

Using the proposed biochemical method for treating wastewater from silver ions ensures the complete extraction of silver ions from effluents of the chemical-photographic industry with simultaneous purification from organic contaminants - gelatins.

Claims (2)

The invention relates to methods for the biochemical treatment of wastewater using microorganisms, in particular the wastewaters of enterprises of the chemical-photographic industry containing silver ions. The known method is b; the chemical purification of wastewater with the help of sulfate-reducing bacteria (ChSVV), suggesting the use of shredded cane flj as an organic diet. The closest to the proposed technical essence is the method of biochemical wastewater treatment, which consists in contacting the purified water with SSC with the addition of household liquid, which serves as a source of organic nutrition 12, However, the method has a low degree of purification from Fe (90%) and S03- (94%). Another disadvantage is that the addition of household liquid to the effluent being cleaned incurs additional costs for the construction of chemical water disinfection facilities. The purpose of the invention is to increase the degree of purification of wastewater from silver ions. The goal is achieved by using elatin as an organic diet. The use of gelatin as an organic food for SSC provides a high degree of purification of wastewater from silver ions. P r and m er. Biochemical purification is carried out in a laboratory setup consisting of a tank for cultivating microorganisms (a biotank) with a volume of 10 liters, a raw material tank and a settling tank. The process is carried out continuously for iO days under anaerobic conditions. With a constant circulation of activated sludge. The flow rate is 0.5 l / h. The temperature in the biotank, the mixing sorrow is 96 rpm. AzoT is used as a gas trap. As a base culture. take the culture of the sulfate reducing bacteria, isolated from the waters of the Romashsky deposit "Eft. The UCS accumulation culture used is preliminarily adapted to various concentrations of silver. The initial concentration of UHV 5x10 cells in 1 ml. When cultivating SSC, Postgate nutrient medium is used, which has the composition, g / l: KN ,, Р04 Sazo-2H gelatin, ammonium chloride - ammonium sulphate ammonium ions are additionally introduced into the model liquid. The culture of sulfate reducing bacteria in anaerobic conditions reduces sulphates to sulfuric acid, which precipitates sulfur ions (a black precipitate forms on the walls of the biotank). Data on biochemical purification are given in the table. As can be seen from the table, the highest degree of purification of wastewater from silver ions is observed when the content of the latter is up to 25 mg / l (degree of purification is 100%). As the concentration of silver ions increases, the degree of purification decreases, and when the content of Ad ions is 50 mg / l, the degree of purification is 95%. The concentration of gelatin 250-500 mg / l corresponds to the real concentration in the production effluent. The use of the proposed biochemical method for the purification of wastewater from silver ions ensures the complete extraction of silver ions from the effluents of the chemical-photographic industry and the simultaneous removal of organic contaminants — gelatin. Claim 1. A method for biochemical treatment of wastewater from silver ions, including cleaning under anaerobic conditions by sulphate-reducing bacteria in the presence of an organic diet / characterized in that gelatin is used as an organic diet. 2. The method according to claim 1, characterized in that waste water is used as gelatin, its soderzhanie in the amount of 250-500 mg / l. Sources of information taken into account in the examination li Il Metdinov AI and. Microbiologists, t. XVI, vol. I, 1977, p. 113. 2; Kataeva I.V. Biological self-purification and water formation. Science, 1975, p. 156.