SU1151514A1 - Method of biological purification of waste water containing dicarboxylic acids - Google Patents

Abstract

1. METHOD OF BIOLOGICAL CLEANING OF WASTE WATERS, CONTAINING PATHS %, glutaric acid 5.6-7.5%, succinic acid 2.7-3.6%, nitric acid 0.3-0.4%, copper 0.15-0.2%, vanadium 0.075-0, 1%, acidified to pH 1.3-2.0, the mixture is neutralized and mixed with nitrogen-containing wastewater before treatment with active sludge. 2. Method 11. According to 11. 1, tl and h ay i and so that the diluted waste water is acidified to a pH of 1.3-2.0 by distillate of the column of the addition of adipic acid in the ratios Is 10-1: 15, and the mixture is neutralized to pH 7-10.

Description

: ii l I The invention relates to the disposal of wastewater and can be used to clean wastewater from metals, in particular from copper and vanadium. The purpose of the invention is to provide the possibility of simultaneous purification from dicarboxylic acids, nitrogen-containing compounds, copper and vanadium. Example 1. Wastewater (DCC dicarboxylic waste) from adipic acid production, containing 41% adipic, 37% glutaric, 18% succinic, 2% nitric acid, 1% copper and 0.5% vanadium in an amount of 200 kg / h is diluted circulating water to adipic acid content of 6.1 glutaric acid 5.6%, succinic acid 2.7%, nitric acid 0.3%, copper compounds 0.15%, and vanadium 0.075%. The resulting solution is 1 cm thick with distillate of the column for strengthening the production of adipic acid in the ratio of 1:10. The amount of distillate added is 25 m / h, the content of nitric acid in it is 1.5%. Receipt drainage neutralizes soda to pH 10. Neutralized runoff in the amount of 32 m / h with a temperature of 20 ° C, COD 10,000 mg Oi / l, N0.12000 mg / l 1000.mg / l, 500 mg / l is mixed with nitrogen-containing effluent of composition: pH 7, COD 1500 mg Og / l, NH4 150 mg / l NOj 100 mg / l in a 1: 1 ratio. The resulting mixture is sent to the primary clarifiers of the workshop for neutralizing and cleaning industrial wastewaters, where mechanical impurities are cleaned, and then to a denitrification unit, where nitrates are reduced to free nitrogen. Wastewater composition: pH 8.5, COD 5000 mg, NH4 1000 mg / l, NH 250 ng / l, PjOj 30 mg / l sent to aerofilms, where adsorption of copper and vanadium on activated sludge takes place. After aeration tanks the wastewater of the composition: pH 7.5, COD 56 mg Og / l, Ш49 is present, NOj 9.5 mg / l, Cu 0.1 mg / l, V 0.075 mg / l are sent to secondary sedimentation tanks, where sedimentation of activated sludge with adsorbed copper ions and vanadium. The clarified wastewater is directed to buffer ponds, where natural purification of sewage takes place with the help of air oxygen and phytoplankton. There is no analysis of wastewater after treatment, N0 U mg / l, COD 141 48 mg Oj / l, pH 7.9, DCC are absent; Cu 0.06 mg / L (0.0006%), 0.2 mg / L (0.0002%). Example 2. Wastewater from adipic acid production containing 41% adipic, 37% glutaric, 18% succinic, 2% nitric acid, 1% copper, and 0.5% vanadium in an amount of 200 mg / h is diluted with recycled water to adipic acid 7.17%, glutaric 6.5%, amber 3.15%, nitric 0.35%, copper 0.175% and vanadium 0.088%. Then it is mixed with distillate of the column for strengthening the production of adipic acid in the ratio of 1: 12.5, the amount of distillate is 25 .. the content of nitric acid in it is up to 1.5%. The resulting effluent is neutralized with soda to a pH value of 10. Neutralized effluent in the amount of 35 with a temperature of 20 s, COD 10,000 ml 0 / l, N0, 1200 mg / l, 1000 mg / l, 500 mg / l is mixed with the nitrate-containing effluent of composition: pH 7, COD 1500 ml / l, NH4 150 mg / l, N0,100 mg / l in the ratio 1: 1,2. The resulting mixture is sent to sedimentation tanks for purification from mechanical impurities, and then to a denitrification unit, where nitrates are reduced to free nitrogen, and then sent to aerotanks, where adsorption of copper and vanadium is activated with silt. The clarified wastewater is directed to buffer ponds, where natural purification of wastewaters takes place with the help of air oxygen and phytoplankton. Analysis of wastewater after treatment: NH4 is absent, N0 10 mg / l, COD 48 mg, pH 8.0. DCC is missing. Cu 0.05 mg / l (0.0005%), W 0.18 mg / l (0.0018%). Example 3. Waste DCC from adipic acid production (), containing 41% adipic acid, 37% glutaic acid, 2% nitric acid, 18% succinic acid, 1% copper and 0.5% vaadi in an amount of 200 mg / h is diluted with circulating water to a content of 8.2% adipic acid-P), 7.5% glutaric, 3.6% succinic and 0.4% nitrogen, 0.2% copper, and 0.1% vanadium. Then it is mixed with 25 distiyatom of the column for strengthening the production of adipic acid, containing 1.5% nitric acid, in a ratio of 1:15. The resulting effluent is neutralized with soda to a pH value of 10 .. 3 1 Neutralized runoff in quantities of 37 with a temperature of not more than 20 C. COD 10,000 mg, N0 12,000 mg / l, C - 1000 mg / l, mg / l with nitrate-containing effluents, characteristics : pH 7, COD 1300 mg, NH 150 mg / l, NOD too mg / l, ratio of neutralized run and nitrate-containing 1:15 The mixture is sent to the primary sedimentation tanks. To neutralize and clean industrial effluents, where mechanical impurities are cleaned. and then to the installation of denitrification, where recovery takes place Ratov to free nitrogen. Wastewater composition: pH 8.5, ICP 5000 mg, t 4 too mg / l, N0, 250 mg / l, P Oj 30 mg / l are sent to aerotanks, where adsorption of copper and vanadium on activated sludge takes place. After aeration tanks, the wastewater is soeta: pH 7.5, COD 56 mg Og / l, W4 9.5, 0-, i mg / l. missing. V 0.5 mg / L is sent to secondary sedimentation tanks, where the activated sludge is deposited along with adsorbed copper and vanadium ions. The clarified wastewater is directed to buffer ponds where it rises. The tertiary treatment of wastewater with the help of oxygen is water and phytoplankton. The analysis of wastewater after purification of NH4 is absent, N0 tO mg / l, COD 48 mg Oj / l, pH 7.9, DCC is absent, and-2 0.06 mg / l (0.0006%), V 0.2 g / l (0.000005%). h During wastewater treatment, the denitrification process is improved by supplying wastewaters containing dicarboxylic acids, which contribute to the reduction of nitrates to free nitrogen, which reduces the pollution of water bodies by the biogenic element — nitrogen.

Claims (2)

1. The method of biological treatment of wastewater containing dicarboxylic acids, activated sludge, characterized in that, in order to enable simultaneous purification of dicarboxylic acids, nitrogen-containing compounds, copper and vanadium, the wastewater is diluted with circulating water to a concentration of 6.1 adipic acid58 %, glutaric acid 5.6-7.5%, succinic acid 2.7-3.6%, nitric acid 0.3-0.4%, copper 0.15-0.2%, vanadium 0.075-0, 1%, acidified to pH 1.3-2.0, the mixture is neutralized and 'before treatment, activated sludge is mixed with nitrogen-containing wastewater. · 2. The method according to η. 1, it is important that diluted wastewater is acidified to a pH of 1.3-2.0 by a distillate of a column for the reinforcement of adipic acid production in ratios of 1: 10-1: 15, and the mixture is neutralized to pH 7-10. 1151