CN212222737U

CN212222737U - Pesticide effluent treatment plant

Info

Publication number: CN212222737U
Application number: CN202020466595.0U
Authority: CN
Inventors: 郑俊; 张德伟; 徐志敏; 卢珊珊
Original assignee: Huaqi Environment Protection Science And Technology Co ltd
Current assignee: Huaqi Environment Protection Science And Technology Co ltd
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2020-12-25
Anticipated expiration: 2030-04-02

Abstract

The utility model discloses a pesticide effluent treatment plant. The device comprises a Fenton oxidation tank, an adjusting tank, a hydrolysis acidification tank, a pre-anoxic tank, a CASS tank, a high-efficiency sedimentation tank, an ozone catalytic oxidation treatment unit, a biological aerated filter and a disinfection tank; aiming at the characteristics of high concentration, complex components, high chromaticity, strong toxicity, extremely poor biodegradability and the like of organic matters in pesticide wastewater, the device adopts a combined process combining a novel advanced oxidation technology with the traditional physical and chemical processes and a biotechnology, has good removal effect on refractory organic matters and strong deodorization and decoloration capabilities, and effluent can meet the first-class A discharge standard of pollutant discharge standard GB18918-2002 of urban sewage treatment plants and is discharged into a receiving water body.

Description

Pesticide effluent treatment plant

Technical Field

The utility model belongs to the waste water treatment field, concretely relates to pesticide effluent treatment plant.

Background

China is a large country for producing and using pesticides, the amount of wastewater generated by pesticide production is countless every year, and most of pesticide wastewater is directly discharged into a water body without being treated or reaching the standard without being treated, so that the water body is seriously polluted, and the natural environment is damaged.

The agricultural chemical waste water has the characteristics of high organic matter concentration, complex components, high chromaticity, strong toxicity, poor biodegradability, large water quality and water quantity fluctuation and the like because the agricultural chemical production technology falls behind and the production equipment is old, so that a large amount of waste of original products is caused, and most of the waste water contains toxic and harmful substances such as benzene, phenol, arsenic and the like. The existing sewage treatment process is single treatment of a certain process or simple combination of two processes, the treatment effect is poor, and the first-grade A discharge standard of urban sewage is difficult to meet for pesticide wastewater which has high toxicity, complex components and extremely difficult degradation. If a process for perfectly combining various treatment methods to achieve a stable treatment effect can be provided, the method is a great breakthrough in the field of pesticide wastewater treatment.

Therefore, based on the problems, the device and the process for treating the pesticide wastewater have important practical significance in that a novel advanced oxidation technology, a traditional physical chemical process and a biological technology are reasonably combined and applied aiming at the characteristics of high concentration of organic matters in the wastewater of the pesticide factory, complex components, high chromaticity, strong toxicity, extremely poor biodegradability, large fluctuation of water quality and water quantity and the like, and the treated effluent can meet the first-level A discharge standard of urban sewage.

Disclosure of Invention

The utility model provides a to characteristics such as the waste water organic matter concentration of pesticide factory is high, the composition is complicated, the colourity is high, the toxicity is strong, the biodegradability is extremely poor, quality of water fluctuation is big, carry out reasonable combination with novel advanced oxidation technology and traditional physical chemistry technology, biotechnology and use, the pesticide effluent treatment plant that goes out water after the processing can satisfy one-level A emission standard.

The utility model adopts the technical proposal that:

a pesticide wastewater treatment device comprises a Fenton oxidation tank, a regulating tank, a hydrolysis acidification tank, a pre-anoxic tank, a CASS tank, a high-efficiency sedimentation tank, an ozone catalytic oxidation treatment unit, an aeration biological filter and a disinfection tank; the Fenton oxidation tank is provided with an acid adding system, a hydrogen peroxide adding system and a ferrous sulfate adding system; the water outlet of the Fenton oxidation pond is connected with the water inlet of the regulating pond; the water inlet of the regulating tank is also connected with a wastewater drain pipe and a cooling circulating water pipe which have good biodegradability; the adjusting tank is provided with an alkali adding system and a submersible stirrer; the water outlet of the regulating tank is connected with the water inlet of the hydrolysis acidification tank; the hydrolysis acidification tank is provided with a sludge discharge system; the water outlet of the hydrolysis acidification tank is connected with the water inlet of the pre-anoxic tank, and the pre-anoxic tank is provided with a submersible stirrer, a carbon source adding system and a sludge discharging system; the water outlet of the pre-anoxic tank is connected with the water inlet of the CASS tank; the CASS pool consists of a pre-reaction zone and a main reaction zone, and the pre-reaction zone is provided with a submersible water impeller; the main reaction zone is provided with an aeration system, a nitrifying liquid reflux system, a sludge reflux system and a sludge discharge system; the water outlet of the CASS tank is connected with the water inlet of the high-efficiency sedimentation tank, and the high-efficiency sedimentation tank consists of a coagulation tank, a flocculation tank, a PAC (polyaluminium chloride) feeding system, a PAM (polyacrylamide) feeding system and a sedimentation unit; the water outlet of the high-efficiency sedimentation tank is connected with the water inlet of the ozone catalytic oxidation tank, and the ozone catalytic oxidation treatment unit comprises an ozone catalytic oxidation tank, an ozone contact oxidation tank, an ozone buffer tank and an ozone generation system; the air outlet of the ozone generation system is connected with the air inlets of the ozone catalytic oxidation tank and the ozone contact oxidation tank; the water outlet of the ozone buffer tank is connected with the water inlet of the biological aerated filter; the aeration biological filter is a carbon oxidation/nitrification aeration biological filter; the water outlet of the biological aerated filter is connected with the water inlet of the disinfection tank; the disinfection tank comprises a contact disinfection tank and a clean water tank; the contact disinfection tank can be an ultraviolet disinfection tank, an ozone disinfection tank and a sodium hypochlorite disinfection tank; and discharging the water discharged from the disinfection tank into a receiving water body.

Furthermore, all be equipped with the agitator in coagulating basin, the flocculation basin in the high-efficient sedimentation tank.

Furthermore, the sedimentation unit in the high-efficiency sedimentation tank is provided with an electric skimming pipe and a mud scraper.

Further, the ozone generating system in the ozone catalytic oxidation treatment unit comprises an air compressor, a cold dryer, an air storage tank, an oxygen generator, an oxygen storage tank, an ozone generating chamber and other accessory equipment.

Furthermore, the biological aerated filter comprises a water distribution chamber, a water distribution system, an air distribution system, a supporting layer, a spherical homogeneous ceramsite filter material layer, a clear water zone, a water outlet channel and a back washing system.

The beneficial effects are as follows:

by adopting a Fenton oxidation process, a part of organic compounds which are difficult to degrade and have large toxicity can be pre-deoxidized. The biodegradability of the sewage is improved, and the toxic action of toxic organic compounds on subsequent biochemical systems is reduced.

By adopting the processes of hydrolytic acidification, a pre-anoxic tank and CASS, the structure of macromolecular organic substances in the sewage is changed in the hydrolytic acidification process, so that the components of the sewage are changed, certain aerobic non-degradable organic substances are subjected to processes of molecular bond fracture, conversion, hydroxylation and the like, the biodegradability of the sewage is improved, the treatment of a subsequent process is facilitated, and the sewage treatment effect can be improved; nitrifying liquid in the CASS tank flows back to the pre-anoxic tank, and total nitrogen in the sewage can be removed efficiently and energy-efficiently by utilizing micromolecular organic matters formed after hydrolytic acidification; the CASS reaction tank consists of a pre-reaction zone and a main reaction zone, and microorganisms can be selected in the pre-reaction zone, growth of filamentous bacteria is inhibited, and sludge bulking is prevented; the CASS process saves large structures such as a secondary sedimentation tank and the like, and can realize multiple functions such as aeration, sedimentation, water outlet and the like in one reaction area.

The high-efficiency sedimentation tank process has the advantages of small occupied area, low engineering cost, strong impact load resistance, small dosage and the like; biological phosphorus removal has certain limitation, the SS and total phosphorus in the CASS tank effluent are both high, and the SS and total phosphorus in the wastewater can be removed by adopting a high-efficiency sedimentation tank process, so that the adding amount of ozone in an ozone catalytic oxidation section is reduced, and the effluent total phosphorus is ensured to reach the first-grade A discharge standard of urban sewage.

By the use of O₃The BAF process can effectively remove soluble organic matters, ammonia nitrogen and chromaticity and comprehensively improve the quality of effluent; the process utilizes the strong oxidizing property of ozone andthe adsorption and catalysis effects of the catalyst greatly improve the biodegradability of organic matters, enhance the biodegradation effect, provide favorable conditions for BAF aerobic microorganisms by sufficient dissolved oxygen, and reduce the ozone dosage, thereby reducing the operation cost.

Adopting Fenton oxidation, hydrolytic acidification, a pre-anoxic tank, CASS, a high-efficiency sedimentation tank process and O₃The BAF process treatment technology has good treatment effect, stable water outlet and high efficiency.

Drawings

FIG. 1 is a process flow chart of the pesticide wastewater treatment device of the utility model,

fig. 2 is a schematic structural diagram of the pesticide wastewater treatment device of the utility model.

Wherein, 1, a Fenton oxidation pond; 2. a regulating tank; 3. a hydrolysis acidification pool; 4. a pre-anoxic tank; 5. a CASS pool; 6. a high-efficiency sedimentation tank; 7. an ozone catalytic oxidation treatment unit; 8. an aeration biological filter; 9. a disinfection tank; 11. an acid dosing system; 12. a hydrogen peroxide adding system; 13. a ferrous sulfate dosing system; 21. an alkali dosing system; 41. a carbon source adding system; 51. a pre-reaction zone; 52. a primary reaction zone; 61. a precipitation unit; 62. a flocculation tank; 63. a coagulation tank; 64. a PAM dosing system; 65. a PAC dosing system; 71. an ozone buffer pool; 72. an ozone contact oxidation tank; 73. an ozone catalytic oxidation tank; 74. an ozone generating system; 91. a clean water tank; 92. contacting the disinfection tank.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

A pesticide wastewater treatment device comprises a Fenton oxidation tank 1, a regulating tank 2, a hydrolysis acidification tank 3, a pre-anoxic tank 4, a CASS tank 5, a high-efficiency sedimentation tank 6, an ozone catalytic oxidation treatment unit 7, a biological aerated filter 8 and a disinfection tank 9; the Fenton oxidation tank 1 is provided with an acid adding system 11, a hydrogen peroxide adding system 12 and a ferrous sulfate adding system 13; the water outlet of the Fenton oxidation pond 1 is connected with the water inlet of the adjusting pond 2; the water inlet of the regulating tank 2 is also connected with a waste water drain pipe and a cooling circulating water pipe which have good biodegradability; the adjusting tank 2 is provided with an alkali adding system 21 and a submersible stirrer; the water outlet of the regulating tank 2 is connected with the water inlet of the hydrolysis acidification tank 3; the hydrolysis acidification tank 3 is provided with a sludge discharge system; the water outlet of the hydrolysis acidification tank 3 is connected with the water inlet of the pre-anoxic tank 4, and the pre-anoxic tank 4 is provided with a submersible stirrer, a carbon source adding system 41 and a sludge discharging system; the water outlet of the pre-anoxic tank 4 is connected with the water inlet of the CASS tank 5; the CASS pool 5 consists of a pre-reaction zone 51 and a main reaction zone 52, wherein the pre-reaction zone 51 is provided with a submersible water impeller; the main reaction zone 52 is provided with an aeration system, a nitrifying liquid reflux system, a sludge reflux system and a sludge discharge system; the water outlet of the CASS tank 5 is connected with the water inlet of the high-efficiency sedimentation tank 6, and the high-efficiency sedimentation tank 6 consists of a coagulation tank 63, a flocculation tank 62, a PAC (polyaluminium chloride) adding system 65, a PAM (polyacrylamide) adding system 64 and a sedimentation unit 61; the water outlet of the high-efficiency sedimentation tank 6 is connected with the water inlet of an ozone catalytic oxidation tank 73, and the ozone catalytic oxidation treatment unit 7 comprises an ozone catalytic oxidation tank 73, an ozone contact oxidation tank 72, an ozone buffer tank 71 and an ozone generation system 74; the air outlet of the ozone generating system 74 is connected with the air inlets of the ozone catalytic oxidation tank 73 and the ozone contact oxidation tank 72; the water outlet of the ozone buffer tank 71 is connected with the water inlet of the biological aerated filter 8; the biological aerated filter 8 is a carbon oxidation/nitrification biological aerated filter; the water outlet of the biological aerated filter 8 is connected with the water inlet of the disinfection tank 9; the sterilizing bath 9 includes a contact sterilizing bath 92 and a clean water bath 91; the contact disinfection tank 92 can be an ultraviolet disinfection tank, an ozone disinfection tank or a sodium hypochlorite disinfection tank; the water discharged from the disinfection tank 9 is discharged into a receiving water body.

And stirrers are arranged in the coagulation tank 63 and the flocculation tank 62 in the high-efficiency sedimentation tank 6.

The sedimentation unit 61 in the high-efficiency sedimentation tank 6 is provided with an electric skimming pipe and a mud scraper.

The ozone generating system 74 in the ozone catalytic oxidation treatment unit 7 comprises an air compressor, a refrigeration dryer, an air storage tank, an oxygen generator, an oxygen storage tank, an ozone generating chamber and other accessory equipment.

The biological aerated filter 8 comprises a water distribution chamber, a water distribution system, an air distribution system, a supporting layer, a spherical homogeneous ceramsite filter material layer, a clear water zone, a water outlet channel and a back washing system.

Will daily flow 2000m³Collecting refractory wastewater with the concentration of 1300mg/L ammonia nitrogen/D, COD12000mg/L and through a pipe network, pumping the collected wastewater into a Fenton oxidation pond 1 through a lift pump for advanced oxidation, and c (H)₂O₂)：c(Fe²⁺) Adding a Fenton reagent according to the molar concentration ratio of 4:1, adding concentrated hydrochloric acid to adjust the pH value to 3.0, and keeping the hydraulic retention time for 2 hours. The Fenton reagent oxidizes organic compounds such as pyridine and the like which are difficult to degrade in the wastewater into small molecular compounds or directly oxidizes the organic compounds into carbon dioxide and water.

The effluent of the Fenton oxidation tank 1 enters an adjusting tank 2, meanwhile, wastewater with high biodegradability and COD of 1500mg/L is collected according to the proportion of 4:1, the wastewater is uniformly mixed under the action of a submersible stirrer, the COD is adjusted to 3500mg/L, 10% of sodium hydroxide solution is added, and the pH is adjusted to 7.62.

The effluent of the regulating reservoir 2 enters a hydrolytic acidification tank 3, the hydraulic retention time is 20 hours, the sludge concentration is 10g/L, and the dissolved oxygen is 0.16 mg/L.

The effluent of the hydrolysis acidification tank 3 enters a pre-anoxic tank 4, the hydraulic retention time is 10 hours, the dissolved oxygen is 0.39mg/L, the COD: TN is more than 5:1, and the sludge concentration is 4500 mg/L. In the stage, denitrifying bacteria in the sludge reduce nitrate nitrogen in the sewage into N by using organic compounds in the sewage as carbon sources_XO or N₂And COD is reduced while denitrification is performed. The hydrolysis acidification tank 3 is provided with a sludge discharge system for discharging sludge when the sludge is excessively increased.

The effluent of the pre-anoxic tank 4 enters a CASS tank 5, passes through a pre-reaction zone 51 and then enters a main reaction zone 52; the dissolved oxygen in the pre-reaction zone 51 was 0.42 mg/L; the aeration period of the main reaction zone 52 is controlled to be 9 hours, the sedimentation period is controlled to be 1.5 hours, and the decanting period is controlled to be 1.5 hours; the concentration of sludge in the tank is controlled to be 5100mg/L, part of the residual sludge flows back to the pre-anoxic tank 4 and the hydrolysis acidification tank 3, the reflux ratio of the sludge is 30%, and part of the sludge is discharged to a sludge disposal system. The effluent part of the main reaction zone 52 is taken as nitrifying liquid and flows back to the pre-anoxic tank 4, and the reflux ratio of the nitrifying liquid is 170 percent.

The effluent of the CASS tank 5 enters a high-efficiency sedimentation tank 6; adding 10% PAC (polyaluminium chloride) into the sewage, wherein the adding amount is 50mg/L, the concentration is 0.2% PAM (polyacrylamide), and the adding amount is 1mg/L, then forming large flocs with suspended matters in the sewage under the stirring action, forming residual sludge after the flocs are precipitated and separated in a precipitation and precipitation unit, returning part of the residual sludge to a front-end flocculation tank 62 through a sludge screw pump, fully utilizing incompletely reacted agents in the sludge and providing part of the flocs, and discharging part of the residual sludge to a sludge disposal system through the sludge screw pump;

the effluent from the high-efficiency sedimentation tank 6 enters an ozone catalytic oxidation tank 73 and reacts for 30min, wherein the adding amount of ozone is 48mg/L, and an ozone catalyst is added into the ozone catalytic oxidation tank 73 and is a catalyst prepared by Anhui Huaqi environmental protection science and technology Limited; the effluent of the ozone catalytic oxidation tank 73 enters an ozone contact oxidation tank 72, the retention time is 20min, and the adding amount of ozone is 32 mg/L; the effluent of the ozone contact oxidation tank 72 enters an ozone buffer tank 71, and the retention time is 72 min;

the effluent of the ozone buffer tank 71 enters the biological aerated filter 8, the retention time is 2.16h, and the dissolved oxygen is 4.5 mg/L; the backwashing period of the biological aerated filter 8 is 40 hours, a water level reduction backwashing mode is adopted for backwashing, the backwashing water is the water stored in the clean water tank 91, and the backwashing drainage water is discharged into the regulating tank 2.

The effluent of the aeration biological filter 8 enters a sodium hypochlorite contact disinfection tank 92, and the hydraulic retention time is 30 min. The effluent from the contact disinfection tank 92 enters a clean water tank 91; the effluent of the clean water tank 91 reaches the first-class A discharge standard of GB18918-2002 discharge Standard of pollutants for municipal wastewater treatment plants, and is discharged into a receiving water body.

Table 1 shows the change of water quality index of wastewater after passing through each treatment unit, unit: mg/L

To sum up, the utility model discloses can provide one kind to characteristics such as the waste water organic matter concentration of pesticide factory is high, composition is complicated, the colourity is high, the toxicity is strong, the biodegradability is extremely poor, quality of water volume is undulant greatly, carry out reasonable combination with novel advanced oxidation technology and traditional physical chemistry technology, biotechnology and use, the effluent after the processing can satisfy the pesticide wastewater treatment device and the technology of the one-level A emission standard of "urban sewage treatment plant pollutant emission standard" GB 18918-2002.

The above embodiments are described in detail, but the above description is only a preferred embodiment of the present invention, and should not be construed as limiting the scope of the invention. All the equivalent changes and improvements made according to the application scope of the present invention should fall within the patent coverage of the utility model.

Claims

1. The utility model provides a pesticide effluent treatment plant which characterized in that: the device consists of a Fenton oxidation tank (1), a regulating tank (2), a hydrolysis acidification tank (3), a pre-anoxic tank (4), a CASS tank (5), a high-efficiency sedimentation tank (6), an ozone catalytic oxidation treatment unit (7), a biological aerated filter (8) and a disinfection tank (9); the Fenton oxidation tank (1) is provided with an acid adding system (11), a hydrogen peroxide adding system (12) and a ferrous sulfate adding system (13); the water outlet of the Fenton oxidation pond (1) is connected with the water inlet of the regulating pond (2); the water inlet of the regulating tank (2) is also connected with a biochemical wastewater drainage pipe and a cooling circulating water pipe; the adjusting tank (2) is provided with an alkali adding system (21) and is provided with a submersible stirrer; the water outlet of the regulating tank (2) is connected with the water inlet of the hydrolysis acidification tank (3); the hydrolysis acidification tank (3) is provided with a sludge discharge system; the water outlet of the hydrolysis acidification tank (3) is connected with the water inlet of the pre-anoxic tank (4), and the pre-anoxic tank (4) is provided with a submersible stirrer, a carbon source adding system (41) and a sludge discharging system; the water outlet of the pre-anoxic tank (4) is connected with the water inlet of the CASS tank (5); the CASS pool (5) consists of a pre-reaction zone (51) and a main reaction zone (52), wherein the pre-reaction zone (51) is provided with a submersible water impeller; the main reaction zone (52) is provided with an aeration system, a nitrification liquid reflux system, a sludge reflux system and a sludge discharge system; the water outlet of the CASS tank (5) is connected with the water inlet of the high-efficiency sedimentation tank (6), and the high-efficiency sedimentation tank (6) consists of a coagulation tank (63), a flocculation tank (62), a PAC (PAC) adding system (65), a PAM (Polyacrylamide) adding system (64) and a sedimentation unit (61); the water outlet of the high-efficiency sedimentation tank (6) is connected with the water inlet of an ozone catalytic oxidation tank (73), and the ozone catalytic oxidation treatment unit (7) comprises an ozone catalytic oxidation tank (73), an ozone contact oxidation tank (72), an ozone buffer tank (71) and an ozone generation system (74); the air outlet of the ozone generation system (74) is connected with the air inlets of the ozone catalytic oxidation tank (73) and the ozone contact oxidation tank (72); the water outlet of the ozone buffer tank (71) is connected with the water inlet of the biological aerated filter (8); the biological aerated filter (8) is a carbon oxidation/nitrification biological aerated filter; the water outlet of the biological aerated filter (8) is connected with the water inlet of the disinfection tank (9); the disinfection tank (9) comprises a contact disinfection tank (92) and a clean water tank (91); the contact disinfection tank (92) can be an ultraviolet disinfection tank, an ozone disinfection tank and a sodium hypochlorite disinfection tank; the effluent of the disinfection tank (9) is discharged into a receiving water body.

2. The agricultural chemical wastewater treatment apparatus according to claim 1, characterized in that: and stirrers are arranged in the coagulation tank (63) and the flocculation tank (62) in the high-efficiency sedimentation tank (6).

3. The agricultural chemical wastewater treatment apparatus according to claim 1, characterized in that: and the sedimentation unit (61) in the high-efficiency sedimentation tank (6) is provided with an electric skimming pipe and a mud scraper.

4. The agricultural chemical wastewater treatment apparatus according to claim 1, characterized in that: the ozone generation system (74) in the ozone catalytic oxidation treatment unit (7) comprises an air compressor, a cold dryer, an air storage tank, an oxygen generator, an oxygen storage tank, an ozone generation chamber and accessory equipment.

5. The agricultural chemical wastewater treatment apparatus according to claim 1, characterized in that: the biological aerated filter (8) comprises a water distribution chamber, a water distribution system, an air distribution system, a supporting layer, a spherical homogeneous ceramsite filter material layer, a clear water zone, a water outlet channel and a back flush system.