RU2010113444A - METHOD FOR DEEP BIOCHEMICAL WASTE WATER TREATMENT WITH HIGH CONTENT OF HYDROGEN SULPHIDE AND HYDROSULPHITE, AMMONIUM AND PHOSPHORUS NITROGEN AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method for deep biochemical wastewater treatment with a high content of hydrogen sulfide and hydrosulfides, ammonia nitrogen and phosphorus, including contact of wastewater with active biomass and / or oxidizing reagents, coagulants in the mixing chambers of wastewater and sludge, combined biological treatment devices, characterized by that when the total content of hydrogen sulfide and hydrosulfides in the original waste liquid is more than 20 mg / dm3 or the content of hydrogen sulfide and hydrosulfides in the waste liquid is more than 8 mg / dm3 and the concentration of organic substances in terms of BOD5 is more than 500 mgO2 / dm3, a 30-35% solution of hydrogen peroxide is introduced into a mixing chamber of the first combined biological treatment device; with a residual content of hydrogen sulfide and hydrosulfides over 4 mg / dm3 in the waste liquid that has been treated in the first combined biological treatment device, a 30-35% hydrogen peroxide solution is also introduced into the mixing chamber of the second combined biological treatment device. ! 2. The method according to claim 1, characterized in that when the content of ammonium nitrogen in the initial wastewater is up to 30 mg / dm3, the liquid after treatment in the second combined biological treatment device contacts in the denitrifier with an aliquot of the sludge liquid (substrate) coming from the mixing chamber the first combined biological treatment device; when the content of ammonium nitrogen in the initial wastewater is from 30 to 90 mg / dm3, wastewater is fed into the mixing chamber of the first combined biological treatment device, as well as into the mixing chamber of the second combined biological treatment device

Claims (18)

1. A method for the deep biochemical treatment of wastewater with a high content of hydrogen sulfide and hydrosulphides, ammonium nitrogen and phosphorus, comprising contacting the wastewater with active biomass and / or oxidizing agents, coagulants in the wastewater and sludge mixing chambers, combined biological treatment devices, characterized in that when the total content of hydrogen sulfide and hydrosulfides in the initial wastewater is more than 20 mg / dm ³ or the content of hydrogen sulfide and hydrosulfides in the wastewater is more than 8 mg / dm ³ and the concentration of organic more than 500 mgO ₂ / dm ^{3 of} BOD ₅ substances, 30-35% hydrogen peroxide solution is introduced into the mixing chamber of the first combined biological treatment device; when the residual content of hydrogen sulfide and hydrosulfides is more than 4 mg / dm ³ in the wastewater that has been purified in the first combined biological treatment device, a 30-35% hydrogen peroxide solution is also introduced into the mixing chamber of the second combined biological treatment device. 2. The method according to claim 1, characterized in that when the ammonia nitrogen content in the source wastewater is up to 30 mg / dm ^{3, the} liquid after cleaning in the second combined biological treatment device is contacted in the denitrifier with an aliquot of the sludge liquid (substrate) coming from the chamber mixing the first combined biological treatment device; when the ammonia nitrogen content in the source wastewater is from 30 to 90 mg / dm ^{3, the} wastewater is fed into the mixing chamber of the first combined biological treatment device, as well as into the mixing chamber of the second combined biological treatment device, from which part of the mixture of wastewater and sludge is sent to the denitrifier as a substrate. 3. The method according to claim 1, characterized in that for blowing off volatile forms of nitrogen, saturating the liquid with atmospheric oxygen, reducing residual concentrations of organic, suspended substances and ammonium nitrogen, a bioreactor is additionally included in the purification process, in which the liquid is first aerated and then in contact with artificial loading modified with metal compounds. 4. The method according to claim 1, characterized in that in order to reduce the concentration of total phosphorus, the waste fluid is contacted in a denitrifier and / or bioreactor with a 2-5% solution of an aluminum-containing coagulant modified with activated carbon. 5. The method according to claim 1, characterized in that in order to reduce the residual concentration of total phosphorus, a sorption filter is additionally included in the purification process, in which the waste fluid is in contact with a filter charge on the surface of which chemisorption of orthophosphates is carried out. 6. Installation for deep biochemical wastewater treatment, including mechanical purification devices, wastewater and sludge mixing chambers with circulation pumps and combined biological treatment devices, which contain biofilters with artificial loading, irrigation systems, prefabricated trays and collectors, to which aeration columns are connected, buried in aeration zones of aeration tanks-settlers, in which the feed wastewater supply pipe is connected to the mixing chambers of combined biological cleaning, and the pressure pipe of the circulation pump installed in the mixing chamber of the first combined device is connected to the irrigation system, as well as to the mixing chamber of the second combined device, characterized in that the pressure pipe of the circulation pump installed in the mixing chamber of the second combined device is connected to irrigation system, to the mixing chamber of the first combined device and to the device for processing excess sludge. 7. Installation for implementing the method according to claim 6, characterized in that the pipelines for supplying hydrogen peroxide are connected to the mixing chambers of the first and / or second combined devices. 8. Installation of deep biochemical wastewater treatment, including combined biological treatment devices and a denitrifier, characterized in that a mixer is installed on the clarified liquid discharge pipe from the second combined device to the denitrifier, to which pressure pipelines of the circulation pumps of the first and / or second combined devices are connected, as well as a coagulant solution feed line. 9. Installation of deep biochemical wastewater treatment, including combined biological treatment devices, a denitrifier and a bioreactor, characterized in that the liquid discharge pipe from the second combined device and / or denitrifier is connected to a bioreactor equipped with artificial loading. 10. Installation of deep biochemical wastewater treatment, including combined biological treatment devices, denitrifier, bioreactor and sorption filter, characterized in that the second combined biological treatment device and / or denitrifier and / or bioreactor are connected to a sorption filter equipped with a charge having the property of chemisorption orthophosphates. 11. Installation of deep biochemical wastewater treatment, characterized in that it further includes a device for processing excess sludge, the discharge pipes of which from the combined biological treatment device are connected to a thickener, which, in turn, is connected to a belt filter press, in which the drain device dehydrated cake is connected to a granulator, which also has a supply line (organic and / or mineral additives); the pellet removal device is connected to a roller conveyor equipped with electric heating elements and / or with microwave emitters arranged in series above the conveyor, connected, in turn, to the storage tank. 12. A combined biological treatment device, characterized in that the biofilter loading elements are made in the form of balls with a diameter of 35-100 mm with 4-10 recesses, the axes of which converge in the center of the ball; the balls have protrusions on the surface of 0.1-1.5 mm, and metal compounds are included in the composition of the material of the elements. 13. A combined biological treatment device, characterized in that the biofilter is loaded from corrugated ceramic sheets with a width of 0.5-1.5 m, a height of 0.5-3 m, a thickness of 2-4 mm, with protrusions (roughness) on the surface 0 , 1-2 mm, with a frame of parallel and longitudinal wavy strips with a width and thickness of 3-10 mm, and some of the longitudinal strips are made in the form of wavy partitions 10-35 mm wide, and metal compounds are included in the composition of the sheet material. 14. A combined biological treatment device, characterized in that the width of the triangular rollers placed on the flat part of the bottom of the aeration zone is 0.5-2.0 m and a height of 0.5-1.5 m. 15. Combined biological treatment device, characterized in that the rollers are equipped with biological loading blocks made of plastic plates with 3-30 mm holes and 5-50 mm bristles or ceramic plates, including metal compounds, and with attached rods or plates different lengths of 5-40 mm and a roughness on them in the form of protrusions (0.1-1.5 mm) on them. 16. A combined biological treatment device, characterized in that the sludge discharge pipe is installed on the outer perimeter of the conical part of the bottom of the aeration tank-sump and has holes or nozzles located at an angle of 0-90 ° to the horizontal axis of the pipeline and at a distance of 0.2-1, 0 m apart. 17. A combined biological treatment device, characterized in that in the biofilter irrigation system, the distances from the upper ends of the drainage nozzles of the trays to the disk reflectors are 0.8-2 m, and the distances between the centers of the trays and the distances between the axes of the nozzles in the trays are 0.6- 1.8 m, as well as in a water-jet aeration system, the distances between the edges of the aeration columns of the upper part are 50-500 mm and the distances between the lower edges of the adjacent aeration columns are 0.5-2 m and the diagonal columns are 0.7- 3m. 18. The bioreactor device, characterized in that the rods or plates are attached to plastic or ceramic sheets with a length of 10-100 mm with holes of 3-30 mm, and the distances between the rods or plates and the diameters of the holes are reduced from the bottom to the top of the load, on the sheets, rods or plates have protrusions (0.1-1.5 mm), and metal compounds are included in the structure of the loading material.