CN216191778U - Sludge drying condensation waste water circulation processing system - Google Patents

Abstract

The utility model discloses a sludge drying and condensing wastewater circulating treatment system which comprises a wastewater adjusting unit, a suspended particle removing unit connected to the downstream of the wastewater adjusting unit, a heat exchange unit connected to the downstream of the suspended particle removing unit, a deep treatment unit connected to the downstream of the heat exchange unit and a mud-water separation unit. According to the utility model, homogenization treatment is carried out through the regulating tank, so that the influence of differential wastewater and sludge on subsequent construction can be effectively avoided; the dissolved air flotation device is used for treating the wastewater, so that suspended particulate matters and oil in the wastewater can be removed in a large amount, and the water replenishing of the heat exchanger can be combined and applied by two modes of external cold water and self-circulation wastewater; the A/O pool group is arranged, so that COD and total nitrogen in the wastewater can be removed conveniently; through two treatment lines of wastewater and sludge and a self-circulation treatment mode, the water and energy saving optimization of the whole system can be realized, and the treatment cost is reduced.

Description

Sludge drying condensation waste water circulation processing system

Technical Field

The utility model belongs to the field of sewage treatment, and particularly relates to a sludge drying and condensing wastewater circulating treatment system.

Background

With the continuous improvement of the environmental protection requirement of China, the number of constructed sewage treatment plants is increased, and the generated sludge is increased year by year. At present, the domestic sludge yield of China is more than 3500 million tons/year, and the sludge harmless treatment gap is still huge by 2015 when the capacity of the sludge harmless treatment facility of China is 1369 million tons/year. The sludge contains a large amount of organic nitrogen, organic phosphorus, potassium, calcium and organic matters, and also contains a large amount of toxic and harmful substances such as pathogenic bacteria, parasites, heavy metals, organic pollutants and the like, and the sludge can cause great influence on the ecological environment if being discarded at will. Therefore, the sludge is treated by a reasonable technical route, and the method has important influence on the protection of land resources and water resources in China, the protection of the ecological environment of cities and surrounding areas, and the construction of a green, ecological and low-carbon sustainable development mode.

Among various schemes of sludge harmless treatment, a drying incineration treatment method cooperating with a power plant boiler is the most thorough, rapid and economical method for sludge treatment at present. The method can completely carbonize organic matters in the sludge by means of a power plant boiler, can reduce the volume of the sludge to the maximum extent (the volume is reduced by 70 percent, and the volume can be reduced to 90 percent at most), and can convert energy in the sludge into electric energy or heat energy, thereby changing waste into valuable and fully utilizing the sludge. By means of the existing pollution treatment measures of the power plant, the environmental protection investment of sludge disposal facilities can be reduced, and the economical efficiency of the sludge disposal facilities is further improved. Although the one-time investment is slightly higher compared with other disposal modes, the method has the characteristics of rapidness, centralization, small occupied area and thorough sludge reduction, stabilization and harmlessness, becomes a mainstream sludge disposal technology in developed countries, and is rapidly developed in China. Under the guidance of national policies, suitable sludge disposal schemes are selected in all places according to self conditions. Facilities for disposing sludge by collaborative incineration of power plants are built or planned to be built in a plurality of economically developed areas.

The sludge drying process adopts a direct heat exchange or indirect heat exchange mode to evaporate water in the sludge, and drying condensation wastewater is generated after dust removal and condensation. The wastewater is difficult to treat and is mainly characterized by high temperature, high dust content, high chemical oxygen demand (CODCr), ammonia nitrogen, suspended matters and petroleum, relatively low BOD5, insufficient biodegradability of the wastewater and strong odor. At present, a special sewage discharge channel is mostly arranged for the treatment method aiming at the waste water, and the waste water is discharged into a municipal sewage treatment facility for combined treatment. The treatment method is difficult to implement under the condition that no municipal sewage treatment plant is arranged nearby, and the site selection of sludge treatment facilities is greatly influenced. Meanwhile, the treatment cost is higher due to the poor quality of the sewage.

SUMMERY OF THE UTILITY MODEL

The utility model provides a sludge drying and condensing wastewater circulating treatment system, which is used for treating the conventional sludge drying and condensing wastewater in a systematic way, and solves the technical problems that the temperature of wastewater in the sludge drying and condensing wastewater treatment system is too high, indirect heat exchange is difficult, the total amount of pollutants is not increased, the concentration of the pollutants in the sludge drying and condensing wastewater is diluted, the treatment difficulty is reduced, and the like.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a sludge drying and condensing wastewater circulating treatment system comprises a wastewater adjusting unit, a suspended particle removing unit connected to the downstream of the wastewater adjusting unit, a heat exchange unit connected to the downstream of the suspended particle removing unit, an advanced treatment unit connected to the downstream of the heat exchange unit and a mud-water separation unit;

the wastewater adjusting unit comprises adjusting tanks connected with the sludge heat drying wastewater tanks; the adjusting tanks are arranged in multiple groups and are communicated at a high position;

the suspended particle removing unit comprises a dissolved air floatation device connected to the downstream of the regulating tank;

the heat exchange unit comprises a heat exchanger connected to the downstream of the dissolved air floatation device;

the advanced treatment unit comprises an A/O pool group connected with the downstream of the heat exchanger, a water replenishing pool connected between the heat exchanger and the A/O pool group, and an aeration pool blower unit connected with one side of the A/O pool group;

the mud-water separation unit comprises a sedimentation tank, a water outlet tank standard-reaching wastewater tank, a sludge well, a sludge storage tank and a screw stacking machine;

the sedimentation tank, the water outlet tank and the standard-reaching wastewater tank are sequentially connected, the sedimentation tank is connected to the downstream of the A/O tank group, and the standard-reaching wastewater tank is also connected with the water supplementing tank; the sludge well, the sludge storage tank and the screw stacking machine are sequentially connected, and the sludge well is connected to the downstream of the sedimentation tank; one end of the outlet of the screw stacking machine discharges dewatered sludge, and the other end of the outlet of the screw stacking machine is connected with the regulating tank through a waste water pipeline.

Further, the dissolved air flotation device comprises a flotation tank, a flotation tank stirrer connected to one side inside the flotation tank, a slag scraper connected to the outer side wall of the flotation tank, a dissolved air tank connected to the outer side of the flotation tank, a dissolved air pump connected between the dissolved air tank and the flotation tank, and an air compressor connected to one side of the dissolved air tank; the air floatation tank stirrer is connected to the upstream of the air floatation tank.

Further, the air floatation tank is connected with the regulating tank through a waste water pipeline, and the air floatation tank is connected with a sludge well or a sludge storage tank through a sludge pipeline; a dosing device is also arranged in the air floatation tank and is divided into a coagulation part and a coagulation assisting part.

Furthermore, the A/O pool group comprises an aerobic pool, an anoxic pool connected to one side of the aerobic pool, a water distribution well connected to one side of the anoxic pool and an aerobic reflux pump connected to the interior of the aerobic pool; the aerobic reflux pump is connected with the aerobic tank and the anoxic tank through a waste water pipeline, and a switch valve is arranged on the waste water pipeline; wherein, the anoxic tank is communicated with the heat exchanger, and the aerobic tank is communicated with the sedimentation tank.

Furthermore, the aerobic tank, the anoxic tank and the distribution well are integrally manufactured in an assembled mode, a plurality of groups of the aerobic tank, the anoxic tank and the distribution well are connected in parallel, and an aeration tank blower unit is connected among the plurality of groups of the aerobic tank, the anoxic tank and the distribution well; the aerobic pool is also provided with an aerobic propeller, an alkali dosing device, a micropore aeration device, a dissolved oxygen monitor and a pH detector; an anoxic stirrer is also arranged in the anoxic tank.

Furthermore, the sedimentation tank adopts a central water inlet mode, and a communicating pipe is arranged at the center of the sedimentation tank so that sewage flows into the sedimentation tank from the top of the center of the sedimentation tank from bottom to top; the sedimentation tank is also provided with a reflux device which is connected with the anoxic tank through a sludge pipeline.

Furthermore, a dosing device is also arranged on the screw stacking machine, and a coagulant aid is filled in the dosing device.

Furthermore, a water supplementing interface is arranged behind the heat exchanger, and cold water is mixed and added through a water supplementing pool.

The utility model has the beneficial effects that:

1) according to the utility model, homogenization treatment is carried out through the regulating tank, so that the influence of differential wastewater and sludge on subsequent construction can be effectively avoided;

2) according to the utility model, the dissolved air floatation device is used for treating the wastewater, so that a large amount of suspended particles and oil in the wastewater can be removed, and the temperature of the wastewater can be kept at the temperature required by subsequent treatment through the operation of the heat exchanger; in addition, the water supplement of the heat exchanger can be combined with the external cold water and the self-circulation waste water for application;

3) according to the utility model, the A/O tank group is arranged, COD and total nitrogen in the wastewater can be conveniently removed, and the multiple groups of A/O tank groups are arranged to facilitate batch and large-scale treatment, wherein the reflux arrangement between the aerobic tank and the anoxic tank is favorable for the full treatment of the wastewater;

4) according to the utility model, through the treatment mode that the wastewater and the sludge are treated in two treatment lines and can be circulated, the water and energy saving optimization of the whole system can be realized, and the treatment cost is reduced; and introducing the wastewater after the advanced treatment into a sedimentation tank for sludge-water separation, and drying the separated sludge again.

The sewage treatment process does not produce byproducts which need to be discharged to other treatment facilities, thereby reducing the treatment cost of the condensed wastewater, simultaneously ensuring that the discharge of the dried condensed wastewater is less influenced by regions and the selection range of the construction of sludge drying facilities is wider.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model; the primary objects and other advantages of the utility model may be realized and attained by the instrumentalities particularly pointed out in the specification.

Drawings

FIG. 1 is a schematic view of a sludge drying and condensing wastewater recycling treatment system;

FIG. 2 is a schematic diagram of a dissolved air flotation device of a sludge drying and condensing wastewater treatment system;

FIG. 3 is a schematic view of an A/O tank set and a connecting device of the sludge drying and condensing wastewater circulating treatment system;

FIG. 4 is a schematic view of a connecting pipeline of a sludge drying and condensing wastewater circulating treatment system.

Reference numerals: 1-sludge heat drying wastewater pool, 2-adjusting pool, 3-dissolved air flotation device, 31-air flotation pool stirrer, 32-slag scraper, 33-air flotation pool, 34-dissolved air tank, 35-air compressor, 36-dissolved air pump, 37-air valve, 4-heat exchanger, 5-water supplement pool, 6-A/O pool set, 61-aerobic pool, 62-anoxic pool, 63-water distribution well, 64-aerobic reflux pump, 7-aeration pool blower set, 8-sedimentation pool, 9-water outlet pool, 10-standard wastewater pool, 11-well sludge, 12-sludge storage pool, 13-stacked screw machine and 14-sludge pit.

Detailed Description

As shown in fig. 1 to 4, a sludge drying and condensing wastewater circulating treatment system comprises a wastewater adjusting unit, a suspended particle removing unit connected to the downstream of the wastewater adjusting unit, a heat exchanging unit connected to the downstream of the suspended particle removing unit, and a deep treatment unit and a sludge-water separating unit connected to the downstream of the heat exchanging unit;

in the embodiment, the wastewater adjusting unit comprises an adjusting tank 2 connected with each sludge heat drying wastewater tank 1; the suspended particle removing unit comprises a dissolved air floatation device 3 connected to the downstream of the regulating tank 2; the heat exchange unit comprises a heat exchanger 4 connected downstream of the dissolved air flotation device 3. The advanced treatment unit comprises an A/O pool group 6 connected with the downstream of the heat exchanger 4, a water replenishing pool 5 connected between the heat exchanger 4 and the A/O pool group 6, and an aeration pool blower unit 7 connected with one side of the A/O pool group 6; the mud-water separation unit comprises a sedimentation tank 8, a water outlet tank 9, a standard wastewater tank 10, a sludge well 11, a sludge storage tank 12 and a screw stacking machine 13; the sedimentation tank 8, the water outlet tank 9 and the standard-reaching wastewater tank 10 are sequentially connected, the sedimentation tank 8 is connected to the downstream of the A/O tank group 6, and the standard-reaching wastewater tank 10 is also connected with the water supplementing tank 5; the sludge well 11, the sludge storage tank 12 and the screw stacking machine 13 are sequentially connected and the sludge well 11 is connected to the downstream of the sedimentation tank 8.

In the embodiment, the sedimentation tank 8 adopts a central water inlet mode, and the center of the sedimentation tank 8 is provided with a communicating pipe so that sewage flows into the sedimentation tank 8 from the top of the center of the sedimentation tank 8 from bottom to top; the sedimentation tank 8 is also provided with a reflux device which is connected with the anoxic tank 62 through a sludge pipeline. The screw stacking machine 13 is also provided with a dosing device, and coagulant aids are filled in the dosing device; one end of the outlet of the screw stacking machine 13 discharges dewatered sludge, and the other end of the outlet is connected with the regulating tank 2 through a waste water pipeline.

As shown in fig. 2, the dissolved air flotation device 3 includes a flotation tank 33, a flotation tank stirrer 31 connected to one side inside the flotation tank 33, a slag scraper 32 connected to the outer side wall of the flotation tank 33, a dissolved air tank 34 connected to the outer side of the flotation tank 33, a dissolved air pump 36 connected between the dissolved air tank 34 and the flotation tank 33, and an air compressor 35 connected to one side of the dissolved air tank 34, and air valves 37 are provided between the flotation tank 33 and the flotation tank stirrer 31, and between the flotation tank 33 and the dissolved air tank 34. The air flotation tank stirrer 31 is connected to the upstream of the air flotation tank 33. The air flotation tank 33 is connected with the adjusting tank 2 through a waste water pipeline, and the air flotation tank 33 is connected with the sludge well 11 or the sludge storage tank 12 through a sludge pipeline; a dosing device is also arranged in the air flotation tank 33 and is divided into a coagulation part and a coagulation assisting part.

As shown in fig. 3, the a/O pool group 6 comprises an aerobic pool 61, an anoxic pool 62 connected to one side of the aerobic pool 61, a distribution well 63 connected to one side of the anoxic pool 62, and an aerobic reflux pump 64 connected to the inside of the aerobic pool 61; the aerobic reflux pump 64 is connected with the aerobic tank 61 and the anoxic tank 62 through a waste water pipeline, and a switch valve is arranged on the waste water pipeline.

In the embodiment, the aerobic tank 61, the anoxic tank 62 and the distribution well 63 are integrally manufactured in an assembled mode, a plurality of groups are connected in parallel, and an aeration tank blower unit 7 is connected among the plurality of groups of the aerobic tank 61, the anoxic tank 62 and the distribution well 63; the aerobic tank 61 is also internally provided with an aerobic propeller, an alkali dosing device, a micropore aeration device, a dissolved oxygen monitor and a pH detector; an anoxic stirrer is also provided in the anoxic tank 62.

In this example, wastewater is transported or returned through a wastewater line, sludge is transported or returned through a sludge line in the treatment system, the wastewater line and the flow direction are indicated by solid lines and arrows, and the sludge line and the flow direction are indicated by dotted lines and arrows in fig. 4. PAM-represents coagulant aid positive polyacrylamide; PAC for coagulant polyaluminium chloride and PAM + for coagulant aid negative polyacrylamide.

Referring to fig. 1 to 4, a construction method of a sludge drying and condensing wastewater recycling treatment system is further described, which comprises the following specific steps:

step one, condensed wastewater generated by sludge drying equipment enters a regulating tank 2 through respective sludge heat drying wastewater tanks 1 through wastewater pipelines for homogenization, so that the mass difference of sludge and water quality fluctuation caused by different drying equipment are reduced; the equalizing basin 2 can set up the multiunit and be the high-order intercommunication, is convenient for carry out bottom desilting work under the condition that does not influence waste water treatment.

Step two, introducing the homogenized wastewater into a dissolved air flotation device 3, removing a large amount of suspended particulate matters and oil in the wastewater under the assistance of a coagulant and a coagulant aid through pressurized dissolved air flotation in the dissolved air flotation device 3, and then reducing the temperature of the wastewater to be below the temperature which can be born by advanced treatment through a heat exchanger 4; a water supplementing interface is arranged behind the heat exchanger 4, and cold water is mixed through a water supplementing pool 5 to realize direct cooling of the wastewater; the dissolved air flotation device 3 also conveys the sludge generated in the working process to a sludge well 11 or a sludge storage tank (12) through a sludge pipeline.

Carrying out dissolved air floatation and cooling on the wastewater in a dissolved air floatation device 3, wherein the dissolved air floatation reaction time is 30 min; the proportion of the coagulant to the coagulant aid is (10: 1) - (30: 1), and the total concentration is 150-250 mg/L; the coagulant is polyaluminium chloride, and the coagulant aid is negative polyacrylamide.

Introducing the wastewater passing through the heat exchanger 4 into an A/O tank group 6, and performing advanced treatment through an A/O process to remove COD (chemical oxygen demand) and total nitrogen in the wastewater; an aerobic reflux pump 64 is arranged at the overflow end of the aerobic tank 61 in the O/A tank group and can carry out reflux of the mixed liquid; wherein the anoxic tank 62 is communicated with the heat exchanger 4, and the aerobic tank 61 is communicated with the sedimentation tank 8.

The advanced treatment reaction time of the A/O pool group 6 is 10-20 h; controlling the dissolved oxygen content in the aerobic tank 61 to be 2.0-4.0 mg/L; in the sludge precipitation and treatment step, the reaction time of the sludge precipitation is 4 hours; the screw folding machine 13 adds coagulant aid in the dehydration process, and the coagulant aid is positive polyacrylamide.

Introducing the wastewater subjected to the advanced treatment into a sedimentation tank 8 for mud-water separation, wherein the sedimentation tank 8 adopts a central water inlet mode, and a communicating pipe is arranged in the center of the sedimentation tank 8 to enable the sewage to flow into the sedimentation tank 8 from bottom to top from the top of the center of the sedimentation tank 8; the separated clear liquid enters a water outlet pool 9 through a waste water pipeline and enters a standard-reaching waste water pool 10 after reaching the standard through detection, and the clear liquid is discharged into a pipe network according to requirements; in addition, the standard-reaching wastewater is also connected with a water replenishing pool 5; when the environment temperature is higher and the temperature of the cold end of the heat exchanger 4 is overhigh, cold water can be directly mixed, external cooling water is adopted during starting, and the standard-reaching waste water of the system is adopted after stable operation.

Step five, sludge which is introduced into the sedimentation tank 8 and is subjected to mud-water separation enters a sludge well 11 through a sludge pipeline, enters a sludge storage tank 12 through the sludge well 11 through the sludge pipeline and is treated through a screw stacking machine 13; part of sludge in the sedimentation tank 8 flows back to the A/O tank group 6 through a sludge pipeline for reuse, and in addition, a stirring device is arranged in the sludge storage tank 12.

And step six, adding a coagulant aid to treat sludge at the screw stacking machine 13, discharging part of the sludge to a sludge pit 14, and refluxing part of wastewater generated in the process to the regulating tank 2 for reuse through a wastewater pipeline.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that may be made by those skilled in the art within the technical scope of the present invention will be covered by the scope of the present invention.

Claims (10)

1. A sludge drying and condensing wastewater circulating treatment system is characterized by comprising a wastewater adjusting unit, a suspended particle removing unit connected to the downstream of the wastewater adjusting unit, a heat exchange unit connected to the downstream of the suspended particle removing unit, and an advanced treatment unit and a sludge-water separation unit connected to the downstream of the heat exchange unit;

the wastewater adjusting unit comprises adjusting tanks (2) connected with the sludge heat drying wastewater tanks (1); the adjusting tanks (2) are arranged in multiple groups and communicated at a high position;

the suspended particle removing unit comprises a dissolved air floatation device (3) connected to the downstream of the regulating tank (2);

the heat exchange unit comprises a heat exchanger (4) connected to the downstream of the dissolved air flotation device (3);

the advanced treatment unit comprises an A/O pool group (6) connected with the downstream of the heat exchanger (4), a water replenishing pool (5) connected between the heat exchanger (4) and the A/O pool group (6) and an aeration pool blower unit (7) connected with one side of the A/O pool group (6);

the mud-water separation unit comprises a sedimentation tank (8), a water outlet tank (9), a standard wastewater tank (10), a sludge well (11), a sludge storage tank (12) and a screw stacking machine (13);

the sedimentation tank (8), the water outlet tank (9) and the standard-reaching wastewater tank (10) are sequentially connected, the sedimentation tank (8) is connected to the downstream of the A/O tank group (6), and the standard-reaching wastewater tank (10) is also connected with the water supplementing tank (5); the sludge well (11), the sludge storage tank (12) and the screw stacking machine (13) are sequentially connected, and the sludge well (11) is connected to the downstream of the sedimentation tank (8); one end of the outlet of the screw stacking machine (13) discharges dewatered sludge, and the other end of the outlet is connected with the regulating tank (2) through a waste water pipeline.

2. The sludge drying and condensing wastewater recycling treatment system according to claim 1, wherein the dissolved air flotation device (3) comprises a flotation tank (33), a flotation tank stirrer (31) connected to one side inside the flotation tank (33), a residue scraper (32) connected to the outer side wall of the flotation tank (33), a dissolved air tank (34) connected to the outer side of the flotation tank (33), a dissolved air pump (36) connected between the dissolved air tank (34) and the flotation tank (33), and an air compressor (35) connected to one side of the dissolved air tank (34); the air floatation tank stirrer (31) is connected to the upstream of the air floatation tank (33).

3. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 2, wherein the air flotation tank (33) is connected with the adjusting tank (2) through a wastewater pipeline, and the air flotation tank (33) is connected with the sludge well (11) or the sludge storage tank (12) through a sludge pipeline; a dosing device is also arranged in the air floatation tank (33) and is divided into a coagulation part and a coagulation assisting part.

4. The sludge drying and condensing wastewater recycling system as claimed in claim 1, wherein the A/O pool group (6) comprises an aerobic pool (61), an anoxic pool (62) connected to one side of the aerobic pool (61), a distribution well (63) connected to one side of the anoxic pool (62), and an aerobic reflux pump (64) connected to the inside of the aerobic pool (61).

5. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 4, wherein the aerobic reflux pump (64) is connected with the aerobic tank (61) and the anoxic tank (62) through a wastewater pipeline, and a switch valve is arranged on the wastewater pipeline; wherein the anoxic tank (62) is communicated with the heat exchanger (4), and the aerobic tank (61) is communicated with the sedimentation tank (8).

6. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 5, wherein the aerobic tank (61), the anoxic tank (62) and the distribution well (63) are integrally fabricated in an assembled manner, a plurality of sets of the aerobic tank (61), the anoxic tank (62) and the distribution well (63) are connected in parallel, and an aeration tank blower unit (7) is connected among the plurality of sets of the aerobic tank (61), the anoxic tank (62) and the distribution well (63).

7. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 6, wherein the aerobic tank (61) is further provided with an aerobic propeller, an alkali dosing device, a micro-pore aeration device, a dissolved oxygen monitor and a pH detector; an anoxic stirrer is also arranged in the anoxic tank (62).

8. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 7, wherein the sedimentation tank (8) adopts a center water inlet mode, and a communicating pipe is arranged at the center of the sedimentation tank (8) to make sewage flow into the sedimentation tank (8) from the top of the center of the sedimentation tank (8) from bottom to top; the sedimentation tank (8) is also provided with a reflux device which is connected with the anoxic tank (62) through a sludge pipeline.

9. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 8, wherein the screw stacking machine (13) is further provided with a dosing device, and the dosing device is filled with a coagulant aid.

10. The sludge drying and condensing wastewater recycling treatment system as claimed in claim 9, wherein a water replenishing interface is further provided behind the heat exchanger (4) to mix cold water through a water replenishing tank (5).

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