UA67084C2 - Method for purification of waste water - Google Patents

Abstract

A method for purification of wastewater containing of a flow of acid waste water, flow of nitrogen-containing waste water, flow of organic-containing waste water, and economic-household waste water, which method comprises operation of working and mixing respective flows, three-stage biochemical treatment by active sludge with aeration, sedimentation and return of active sludge for aeration and operations of return of active sludge for aeration and operations of mixing all preliminary mixed waste water, after-treatment and disinfection.

Description

Description of the invention

The proposed invention relates to industrial wastewater treatment, in particular to biochemical treatment, and 9 can be used for city and chemical plant wastewater treatment.

The closest to the proposed method is a method of wastewater treatment consisting of an acidic wastewater flow, a nitrogen-containing wastewater flow (NOW), an organic wastewater flow (OVS), and a household wastewater (HOW) that includes the neutralization of the acidic wastewater flow alkaline agent; mixing the ASV flow in the presence of orthophosphoric acid with another wastewater flow; mixing 70 of the OSV stream at the first stage of mixing with another wastewater stream, settling with sludge removal, and the clarified wastewater mixture to the second stage of mixing with another wastewater stream, again settling the wastewater mixture with sludge removal, and the clarified wastewater mixture to a three-stage biochemical treatment (BHO) with activated sludge with aeration, settling on the first and third stages of BHO and return of activated sludge to aeration; mixing of sewage sludge, diverting part of sewage sludge to aeration of the third stage of 12 three-stage sewage treatment plant, and the second part of sewage sludge to biochemical treatment with activated sludge with aeration, settling and return of activated sludge to aeration, mixing of all pre-treated wastewater, further treatment and disinfection.

Acidic wastewater from the production of adipic acid is neutralized with a solution of caustic soda, obtained during the heat treatment of alkaline wastewater from the production of adipic acid, and caustic soda. Neutralized acidic wastewater is mixed with nitrogen-containing wastewater from the production of mineral fertilizers and orthophosphoric acid at the first stage of aeration of a three-stage BHO, and orthophosphoric acid is also added to the second stage of aeration. Orthophosphoric acid is used to maintain the optimal ratio of biogenic elements.

Organic wastewater (SOW) from organic industries is mixed at the first stage of SOW mixing, then, if necessary, SOW is neutralized to a pH of 6.5 - 8.p.5 with milk of lime, settled with sludge removal, and clarified SOW - on the second stage of mixing, where they are mixed again, is defended with sludge removal. A part of the illuminated OSV after settling is submitted to the aeration of the second stage of the three-stage BHO. The second part

After settling, the WWTP is mixed with domestic wastewater (WWW), part of which is sent to the aeration of the third stage of the three-stage WWTP, and the second part of the wastewater is sent to the biochemical treatment of WWW with activated sludge with aeration, then the wastewater is settled, the activated sludge is returned to aeration . with

All pre-treated wastewater is mixed, further purified and disinfected. (11).

The disadvantage of the known method is that it does not provide optimal conditions for the wastewater treatment process. Cha

This is explained by the fact that during the thermal treatment of alkaline waters of the production of adipic acid 3o, a large amount of caustic soda is formed (up to 120 kg per 1 ton of analon), which is not completely used at stage ee, the neutralization of acidic wastewater. At the same time, up to 190m is spent? of natural gas and up to 2,000 cubic meters of flue gas emitted into the atmosphere are generated for every ton of waste water that is burned.

In addition, the lack of mixing of neutralized acidic wastewater before entering the three-stage WWTP with activated sludge with aeration complicates the management of biochemical processes; conditions are created for volley discharges of pollutants in concentrations toxic to activated sludge, with hydraulic stability lacking. :z» Another disadvantage of the existing method is that the second and third stages of the three-stage BHO do not provide for the separation of activated sludge and settling of partially purified wastewater after the second stage. This has a negative effect on the biocenosis of activated sludge, its oxidizing and adaptive properties, and its ability to level volley concentrations of pollutants decreases.

The basis of the proposed invention is the task of improving the method of wastewater treatment, in which, - And by changing the conditions and order of operations and introducing an additional operation, the possibility of optimizing the process of wastewater treatment is provided.

The problem is solved by the fact that in the known method of wastewater treatment, which consists of a flow (ee) of 50 acidic wastewater, a flow of nitrogen-containing wastewater (NOW), a flow of organic wastewater (OVS) and

I" of industrial and domestic wastewater (HPSW), which includes neutralization of the flow of acidic wastewater with an alkaline agent; mixing the ASV flow in the presence of orthophosphoric acid with another wastewater flow; mixing of the wastewater stream at the first stage of mixing with another wastewater stream, settling with sludge removal, and the clarified wastewater mixture to the second stage of mixing with another wastewater stream, again settling 59 of the wastewater mixture with sludge removal, and the clarified wastewater mixture to a three-stage biochemical processing

GF) (BHO) activated sludge with aeration, settling on the first and third stages of BHO and return of 7 activated sludge for aeration; mixing of sewage sludge, diverting part of sewage sludge to aeration of the third stage of a three-stage sewage treatment plant, and the second part of sewage sludge to biochemical treatment with activated sludge with aeration, settling and return of activated sludge to aeration, mixing of all pre-treated wastewater, further treatment and disinfection, as an alkaline agent for neutralization of acidic waste water uses alkaline production/adipic acid effluents; OSV in the first mixing stage is mixed with neutralized acidic wastewater, and in the second mixing stage it is mixed with nitrogen-containing wastewater and orthophosphoric acid and, after settling, the clarified wastewater is sent to the first stage of three-stage aeration

BHO; the second stage of three-stage BHO is carried out with settling and return of activated sludge for aeration; because a part of the clarified wastewater after the second stage of the three-stage sewage treatment plant is diverted to be mixed with the sewage treatment plant.

The conditions of the neutralization stage of the wastewater treatment process proposed by the applicants provide an opportunity to exclude thermal neutralization of alkaline effluents from the production of adipic acid, as a result of which the consumption of natural gas is excluded.

Changing the supply of neutralized acidic wastewater, nitrogen-containing wastewater and orthophosphoric acid to the first and second stages of mixing and diverting them to the aeration of the first stage of the BHO allows to achieve sufficient mixing of all chemically dirty effluents, as well as to achieve an optimal ratio of biogenic elements (С:М:Р ), which make it possible to create an active sludge with significant adaptive properties at the first and second stages of the BHO, allowing to extinguish salvo discharges. 70 Additional sedimentation with the return of activated sludge, after the second stage of the three-stage BHO, intensifies the bioprocesses at this stage, and the removal of a part of the wastewater after the second stage for mixing with the HPSV, intensifies the bioprocesses for the neutralization of surfactants contained in

HgpPeV.

The method proposed by the applicants includes the following stages: - neutralization of acidic wastewater containing free nitric acid, dicarboxylic acids and their salts with alkaline wastewater from the production of adipic acid, which contains sodium adipinate, free alkalis, organic substances; - mixing of neutralized acidic wastewater with organic wastewater at the first stage of mixing; - neutralization, if necessary, to pH 6.5-8.5 with milk of lime and settling with sludge removal; - diverting clarified wastewater to the second stage of mixing and mixing it with nitrogen-containing wastewater and orthophosphoric acid; - settling of a mixture of wastewater with sludge removal; - three-stage BHO with aeration and return of activated sludge at each stage; sch - mixing of domestic wastewater (GHSW) with part of clarified wastewater after the second stage of the three-stage BHO; i) - diversion of part of the HPS for aeration of the third stage of the three-stage BHO; - diversion of the second part of the WWTP for biological treatment of WWTP with activated sludge with aeration; - settling and return of activated sludge for aeration; "g zo - mixing of all pre-treated wastewater; - additional treatment of mixed wastewater; so - disinfection. at

The proposed method is explained by the installation scheme.

The diagram shows, connected in series: acid waste water neutralizer 1, averager 2, c. settling tank C, averager 4, settling tank 5, aeration tank of the first stage of BHO 6, settling tank 7, aeration tank of the second stage of BHO 8, settling tank 9, aero tank of the third stage of BHO 10, settling tank 11, mixer of the HPSV 12, aerotank of the HPSV 13, settling tank 14, buffer ponds for further cleaning 15, filtering and disinfection station 16.

An example of implementation. 10 Oml of acidic wastewater from the production of adipic acid with a pH of 1.8, containing: "- nitric acid zBOOmg/dm C with carboxylic acids 15000mg/dm C;" mixed with 1 Oml of alkaline wastewater with pH-10.25 and HSK - 47000Omg/dm 3, containing: b free alkalis 900Omg/dm C sodium adipinate 176000mg/dm C -I o in a reactor-mixer. 20 A Mo1 mixture with the following characteristics is obtained: (ee)

T" pH 4.89

HOK 44000mgo/dm Z

MmoZz /Z18Omg/dm Z y y y o.

There are red flakes in the solution. (F) Next, 40 ml of Mo1 mixture is mixed with 120 ml of wastewater from other organic productions, a Mo2 mixture is obtained, with g characteristics: pH 6, AZ 60 HSK OO 13144 mgo/dm Z

Moz 75Omg/dm Z

There are red flakes in the solution. re The mixture of Mo2 is neutralized with a solution of milk of lime to pH-7, and then it is settled. Flakes floating and present in the Mo 2 mixture settle to the bottom after standing for 30 minutes.

Next, 50 ml of nitrogen-containing wastewater with a pH of 8.8, as well as 0.05 ml of orthophosphoric acid, are added to 5 Oml of the illuminated Mo2 mixture.

A mixture of MoZ is obtained, with the following characteristics:

pH 7.8

Mmoz 273.4mg/dm Z

MchnA 22mg/dm Z

ROD 1Omg/dm Z

HSK at 4186 mgo/dm Z

BOKB 2931 mgo/dm Z

After settling for 30 minutes, the MoC mixture is treated with activated sludge in two stages, with the concentration of dissolved oxygen and activated sludge, respectively: the first stage of aeration O" - 0.5-0.65mg/dmZ

Smulu - 4600-BZ0Omg/dm From the second degree of aeration Oz - 2.5-2.8mg/dm?

Semolina - 3900-4200 mg/dmZ

Next, 50 ml of domestic wastewater with the following characteristics is added to 5 ml of partially purified wastewater at the second stage of aeration:

HSK at 190 mgo/dm Z

MMni. about 1 Bmg/dm Z

ROD 4, Ohm/dm Z

BSKB at 47 mgo/dm Z "

From co

A mixture of Mo4 is obtained, which is treated with activated sludge at the third stage of aeration with a concentration of: "c) dissolved oxygen 2.7-3, Amg/dm Z in activated sludge 4000-4400mg/dm Z. (Ce)

The level of purification at the 1st stage of aeration is:

Mmoz 70095 «

Muna 36,396

KhSKO 48 - and at the ІІ degree of aeration is: и?

Mmoz 7395 o, 15 KhSK 3996 at the III degree of aeration is: -i

Mina 9295 (in)

HSK 8195. (ee)

Their Purified water after three-stage purification has the following characteristics:

PH 8

HSC o /ovimgodm Z

Mina O.5Bmg/dm Z (F) Ministry of Health 1.1mg/dm Z ko ROD 2.82mg/dm Z

BSK" 8, Omgo/dm Z. 60 100 ml of domestic wastewater, with the above-mentioned characteristics, is mixed with 30 ml of partially purified wastewater after the second stage of aeration and treated with activated sludge at a concentration of: activated sludge 3100-5800mg/dm of dissolved oxygen 2 ,5-3.5 mg/dm. 65 years old

At the same time, the cleaning level is: hok 7096

BSK 8695

Mina 9290

ROD-Z 12.59.

Purified water has the following characteristics: pH 80

MMna. /1Zmg/dm Z

Ministry of Health Z, Bmg/dm Z

HSK OO at 57 m.o.m. Z

BSKB 5, Omgo/dm Z

ROD 3, Bmg/dm Z.

Sources of information taken into account during the examination: 1.Technological regulation Mo104 of the workshop of organic acids for the production of organic products from aromatic sulfur of SGPP "Obyedinenie Azot", approved on 20.12.2001. p. 25. Technol. regulation Mo 80 installations for burning sodium salts of dicarboxylic acids (sodium adipates) of the amine plant for the production of organic products from aromatic sulfur SSPP "Obyedinenie Azot", approved on April 9, 2001. p. 3, technol. regulation My workshop of the NOPS department of mechanical and physical and chemical treatment of wastewater of the SSPP "Obyedinenie Azot" utv 9.02.2001, item 4.4., p. 16., technol. regulation Mo2 of the NOPS workshop of the department of biochemical wastewater treatment of the SSPP "Obyedinenie Azot", p. 29 of utv. 21.02.97., extended on 11.02.2002. pp. 8-21. at

Claims (1)

The formula of the invention "Method of wastewater treatment, which includes neutralization of acidic wastewater with an alkaline agent; three-stage biochemical treatment (BHO) with activated sludge with aeration, settling in the first and third stages and return of activated sludge for aeration; treatment of nitrogen-containing wastewater (ASW) in the presence of orthophosphoric acid; treatment of organic wastewater (SWW), which includes the first stage of SWW averaging, if necessary, neutralization with milk of lime to pH 6.5 - 8.5, settling with the removal of sludge to the side, and from the clarified SWW - to the second stage of averaging, again settling with removal of sludge to the side, and illuminated OSV is) - for aeration of a three-stage BHO; treatment of household wastewater (WWW), which includes mixing WWW, diverting a part of WWW to aeration of the third stage of a three-stage sewage treatment plant, and the second part - for biochemical treatment of WWW with activated sludge with aeration, settling and return of activated sludge to aeration, "mixing of all pre- of treated wastewater, post-treatment and disinfection, which is distinguished by the fact that alkaline effluents from the production of adipic acid are used as an alkaline agent for the neutralization of acidic wastewater; o) with OSV at the first stage of averaging is mixed with neutralized acidic wastewater, and at the second stage of "" averaging is mixed with nitrogen-containing wastewater and orthophosphoric acid and, after settling, "clarified wastewater is directed to the aeration of the first stage of the three-stage BHO; the second stage of three-stage BHO is carried out with settling and return of activated sludge for aeration; part of the clarified wastewater after the second stage of the three-stage BHO is diverted for mixing with the HPSW. (o) - and («in) (ee) c" name) 60 b5