High density is containing PVA desized wastewater treatment process and device
Technical field
The present invention relates to technical field of sewage, be specifically related to treatment process and device that a kind of high density contains PVA desized wastewater.
Background technology
China's textile printing and dyeing wastewater accounts for 35% of discharged volume of industrial waste water, industrial wastewater discharge rich and influential family, desized wastewater is wherein a kind of difficult trade effluent, the water yield and variation water quality large, complicated component, COD content are high, normal containing difficult for biological degradation pollutents such as polyvinyl alcohol (PVA), biodegradability is poor.
Both at home and abroad to containing PVA waste water treatment process mainly contains foam separation, ultrafiltration is saltoutd, oxidizing, microwave radiation, sonication, advanced oxidation processes, efficient degrading bacteria biological degradation method, Anaerobic biotreatment method, embrane method process etc.
Mostly rest on the conceptual phase of single technology at present about the treatment technology containing PVA desized wastewater, often cannot adapt to the actual waste water that dispatches from the factory complicated and changeable.
Summary of the invention
The technical problem to be solved in the present invention is: the process containing PVA desized wastewater complicated and changeable in order to solve high density, the invention provides a kind of high density containing PVA desized wastewater treatment process and device.
The technical solution adopted for the present invention to solve the technical problems is: a kind of high density containing PVA desized wastewater treatment process and device, comprise wastewater equalization pond, coagulative precipitation tank, pond of saltouing, advanced oxidation reaction settling basin, iris type anoxic anaerobic reation pool, Aerobic Pond and second pond; Described wastewater equalization pond, coagulative precipitation tank, pond of saltouing, advanced oxidation reaction settling basin, iris type anoxic anaerobic reation pool, Aerobic Pond are communicated with successively with second pond.
Described wastewater equalization pond comprises water inlet pipe, pH value measuring and control device and rising pipe, for regulating the pH value of desized wastewater, water quality and the water yield.
Described coagulative precipitation tank comprises mix and blend district and settling region, and mix and blend is provided with sewage water inlet pipe bottom district, and middle and upper part is provided with the liquid add-on system for adding coagulating agent, in the middle part of stirring area, be provided with whipping appts; Be provided with baffle plate in described settling region, the inwall of this baffle plate and settling tank forms the waste water runner entering settling region as waste water, and the outlet top of settling region is provided with overfalling weir, and the tapered structure of settling region bottom design, is provided with sediment discharge valve bottom settling region.
Described pond of saltouing comprises mix and blend district and settling region, and mix and blend is provided with sewage water inlet pipe bottom district, and middle and upper part is provided with liquid add-on system, in the middle part of stirring area, be provided with whipping appts; Baffle plate is provided with in described settling region, the inwall of this baffle plate and settling tank forms the waste water runner entering settling region as waste water, the outlet top of settling region is provided with overfalling weir, and the tapered structure of settling region bottom design, is provided with the bleed valve of throw out PVA bottom settling region.
Described advanced oxidation reaction settling basin comprises mix and blend district and settling region, and mix and blend is provided with sewage water inlet pipe bottom district, and middle and upper part is provided with the liquid add-on system for adding hydrogen peroxide, ferrous salt, in the middle part of stirring area, be provided with whipping appts; Baffle plate is provided with in described settling region, the inwall of this baffle plate and settling tank forms the waste water runner entering settling region as waste water, the exit of settling region is provided with triphase separator, the outlet top of settling region is provided with overfalling weir, the tapered structure of settling region bottom design, is provided with sediment discharge valve bottom settling region.
Described iris type anoxic anaerobic reation pool comprises the double oxygen section, anoxic section and the anaerobism section that are separated into by flow-stopping plate, described double oxygen section head end is provided with the water inlet pipe for feeding sewage, oxygen section end of holding concurrently is communicated with anoxic section head end, anoxic section end is communicated with anaerobism section head end, anaerobism section end is provided with triphase separator and overfalling weir, overfalling weir connects rising pipe, the tapered structure of anaerobism section bottom design, and pyramidal structure connects mud discharging valve.The double oxygen section of described iris type anoxic anaerobic reation pool, anoxic section and anaerobism section are all provided with the independently exhaust gas centralized tracheae such as methane.
In described Aerobic Pond, middle and lower part arranges water inlet pipe, and described water inlet pipe bottom is provided with water distribution pyrometric cone; Described water distribution pyrometric cone bottom is provided with aeration regulator control system, and described aeration regulator control system comprises aeration plate, gas blower and dissolved oxygen sensing regulation device, and further, described aeration plate is the pore type aeration plate being evenly provided with micropore.Described aeration plate connects gas blower by aeration tube, and gas blower is arranged on outside Aerobic Pond, and aerobic top, waste water underwater arrange dissolved oxygen sensing regulation device, and described dissolved oxygen sensing regulation device is according to the work of oxygen capacity regulation and control gas blower; The exit of described Aerobic Pond is laid with overflow weir.
The rising pipe of described Aerobic Pond connects second pond, the qualified discharge after precipitation of the water after process.
Adopt above-mentioned high density to carry out a method for wastewater treatment containing PVA desized wastewater treatment unit, there are following steps:
1. high density enters wastewater equalization pond adjust ph, water quality and the water yield containing PVA desized wastewater by water inlet pipe.
2. the water after regulating enters coagulative precipitation tank by the water inlet pipe bottom coagulative precipitation tank mix and blend district, mix with the coagulating agent from liquid add-on system, the whipping appts be arranged in the middle part of stirring area is utilized to stir, mixed waste water enters settling region, and the triphase separator of settling region realizes mud-water separation.
3. sewage enters by the water inlet pipe bottom mix and blend district, pond of saltouing pond of saltouing, and mixes with the liquid from liquid add-on system, utilizes the whipping appts be arranged in the middle part of stirring area to stir; Waste water carries out in settling region reaction of saltouing, and the triphase separator of settling region realizes mud-water separation.
4. the water after salt precipitation enters advanced oxidation reaction settling basin by the water inlet pipe bottom advanced oxidation reaction settling basin mix and blend district, mix with from the hydrogen peroxide of liquid add-on system, the liquid of ferrous salt, utilize the whipping appts be arranged in the middle part of stirring area to stir; The reaction of hydrogen peroxide, ferrous salt produces hydroxyl radical free radical active in a large number, destroy the structure of dirty water pollutant, the oxidized decomposition of pollutent in waste water, the waste water after oxygenolysis enters the waste water runner of settling region, and the triphase separator of settling region realizes mud-water separation.
5. mud sinks to the bottom of advanced oxidation reaction settling basin settling region under gravity, is discharged by the sediment discharge valve of bottom.Waste water is communicated with the water inlet pipe of iris type anoxic anaerobic reation pool by overfalling weir, rising pipe with pipe connecting.
6. sewage enters the bottom of iris type anoxic anaerobic reation pool by the hold concurrently water inlet pipe of oxygen section of iris type anoxic anaerobic reation pool; Waste water advances up and down along flow-stopping plate after entering iris type anoxic anaerobic reation pool, successively by the Sludge Bed of each reaction chamber of hold concurrently oxygen section, anoxic section and anaerobism section, mud in reaction tank moves along with the upper current downflow of waste water and the effect of biogas rising, the settlement action of the barrier effect of flow-stopping plate and mud self makes again the flow velocity of mud reduce, therefore a large amount of mud is all trapped within reaction tank, and the microorganism in reaction tank fully contacts with the organism in waste water.The suspended contaminant such as the starch in sewage, fiber, carbohydrate and dissolved organic matter are hydrolyzed to organic acid by the heterotrophic bacterium of the amphimicrobe of oxygen section, anoxic section and the anaerobism section held concurrently, make larger molecular organics be decomposed into small organic molecule, insoluble organism changes into dissolved organic matter.
7. the waste water after anaerobic reaction realizes the separation of mud, water, methane gas at the triphase separator that anaerobism section end is provided with, and mud sinks to anaerobism pars infrasegmentalis under gravity, and unnecessary mud is discharged by the mud discharging valve of bottom.The waste gas such as the methane that iris type anoxic anaerobic reation pool produces collect discharge by reaction tank top effuser.Waste water is communicated with the water inlet pipe of Aerobic Pond by overfalling weir, rising pipe with pipe connecting.
8. waste water enters the middle and lower part of Aerobic Pond by water inlet pipe, water distribution uniformity under the effect of water distribution pyrometric cone, described aeration plate is the pore type aeration plate being evenly provided with micropore, produce a large amount of microbubbles, described dissolved oxygen sensing regulation device is according to the work of oxygen capacity regulation and control gas blower, guarantee that the dissolved oxygen in the water of aerobic contact oxidation pond is greater than 2mg/L, the waste water after process is flowed out by overflow weir.
9. the rising pipe of Aerobic Pond connects the water distributor of second pond, the water qualified discharge after precipitation, and a precipitating sludge part for second pond is back to Aerobic Pond, and a part is as excess sludge.
10. transport outward after the excess sludge dehydration that coagulative precipitation tank, advanced oxidation reaction settling basin, iris type anoxic anaerobic reation pool, Aerobic Pond and second pond produce.
The invention has the beneficial effects as follows: structure of the present invention is simple, and manufacturing cost is lower, PVA recycles, and have extraordinary effect to high density containing the desized wastewater process that PVA is complicated and changeable, operational efficiency is high.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the present invention is further described.
Fig. 1 is process flow sheet.
Fig. 2 is the structural representation of embodiment of the present invention coagulative precipitation tank.
In Fig. 2: 2. coagulative precipitation tank, 2-1. stirring area, 2-2. settling region, 2-3. sewage water inlet pipe, 2-4. liquid add-on system, 2-5. whipping appts, 2-6. baffle plate, 2-7. triphase separator, 2-8. overfalling weir, 2-9. sediment discharge valve.
Fig. 3 is that the embodiment of the present invention is saltoutd the structural representation in pond.
In Fig. 3: 3. pond of saltouing, 3-1. stirring area, 3-2. settling region, 3-3. sewage water inlet pipe, 3-4. liquid add-on system, 3-5. whipping appts, 3-6. baffle plate, 3-7. triphase separator, 3-8. overfalling weir, 3-9. sediment discharge valve.
Fig. 4 is the structural representation of embodiment of the present invention advanced oxidation reaction settling basin.
In Fig. 4: 4. advanced oxidation reaction settling basin, 4-1. stirring area, 4-2. settling region, 4-3. sewage water inlet pipe, 4-4. liquid add-on system, 4-5. whipping appts, 4-6. baffle plate, 4-7. triphase separator, 4-8. overfalling weir, 4-9. sediment discharge valve.
Fig. 5 is the structural representation of embodiment of the present invention iris type anoxic anaerobic reation pool.
In Fig. 5: 5. iris type anoxic anaerobic reation pool, 5-1. flow-stopping plate, 5-2. holds concurrently oxygen section, 5-3. anoxic section, 5-4. anaerobism section, 5-5. water inlet pipe, 5-6. triphase separator, 5-7. overfalling weir, 5-8. mud discharging valve, 5-9. upper cover, 5-10. effuser.
Fig. 6 is the structural representation of embodiment of the present invention Aerobic Pond.
In Fig. 6: 6. Aerobic Pond, 6-1. water inlet pipe, 6-2. water distribution pyrometric cone, 6-3. aeration regulator control system, 6-4. overflow weir.
Embodiment
In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present invention are described in a schematic way, and therefore it only shows the formation relevant with the present invention.
As shown in Figure 1, a kind of high density of the present invention containing PVA desized wastewater treatment process and device, comprise wastewater equalization pond, coagulative precipitation tank 2, pond 3 of saltouing, advanced oxidation reaction settling basin 4, iris type anoxic anaerobic reation pool 5, Aerobic Pond 6 and second pond; Described wastewater equalization pond, coagulative precipitation tank 2, pond 3 of saltouing, advanced oxidation reaction settling basin 4, iris type anoxic anaerobic reation pool 5, Aerobic Pond 6 are communicated with successively with second pond.
Described wastewater equalization pond comprises water inlet pipe, pH value measuring and control device and rising pipe, for regulating the pH value of desized wastewater, water quality and the water yield.
Described coagulative precipitation tank 2 comprises mix and blend district 2-1 and settling region 2-2, is provided with sewage water inlet pipe 2-3 bottom mix and blend district, and middle and upper part is provided with liquid add-on system 2-4, is provided with whipping appts 2-5 in the middle part of stirring area; Baffle plate 2-6 is provided with in described settling region, the inwall of this baffle plate and settling tank forms the waste water runner entering settling region as waste water, the exit of settling region is provided with triphase separator 2-7, the outlet top of settling region is provided with overfalling weir 2-8, the tapered structure of settling region bottom design, is provided with sediment discharge valve 2-9 bottom settling region.
Described pond 3 of saltouing comprises mix and blend district 3-1 and settling region 3-2, is provided with sewage water inlet pipe 3-3 bottom mix and blend district, and middle and upper part is provided with liquid add-on system 3-4, is provided with whipping appts 3-5 in the middle part of stirring area; Baffle plate 3-6 is provided with in described settling region, the inwall of this baffle plate and settling tank forms the waste water runner entering settling region as waste water, the exit of settling region is provided with triphase separator 3-7, the outlet top of settling region is provided with overfalling weir 3-8, the tapered structure of settling region bottom design, is provided with sediment discharge valve 3-9 bottom settling region.
Described advanced oxidation reaction settling basin 4 comprises mix and blend district 4-1 and settling region 4-2, sewage water inlet pipe 4-3 is provided with bottom mix and blend district, middle and upper part is provided with the liquid add-on system 4-4 for adding hydrogen peroxide, ferrous salt, is provided with whipping appts 4-5 in the middle part of stirring area; Baffle plate 4-6 is provided with in described settling region, the inwall of this baffle plate and settling tank forms the waste water runner entering settling region as waste water, the exit of settling region is provided with triphase separator 4-7, the outlet top of settling region is provided with overfalling weir 4-8, the tapered structure of settling region bottom design, is provided with sediment discharge valve 4-9 bottom settling region.
Described iris type anoxic anaerobic reation pool 5 comprises the double oxygen section 5-2, anoxic section 5-3 and the anaerobism section 5-4 that are separated into by flow-stopping plate 5-1, described double oxygen section 5-2 head end is provided with the water inlet pipe 5-5 for feeding sewage, oxygen section 5-2 end of holding concurrently is communicated with anoxic section 5-3 head end, anoxic section 5-3 end is communicated with anaerobism section 5-4 head end, anaerobism section 5-4 end is provided with triphase separator 5-6 and overfalling weir 5-7, overfalling weir 5-7 connects rising pipe, the tapered structure of anaerobism section 5-4 bottom design, pyramidal structure connects mud discharging valve 5-8.The upper cover 5-9 of described iris type anoxic anaerobic reation pool 5 is provided with the exhaust gas centralized tracheae 5-10 such as methane.
In described Aerobic Pond 6, middle and lower part arranges water inlet pipe 6-1, and described water inlet pipe 6-1 bottom is provided with water distribution pyrometric cone 6-2; Described water distribution pyrometric cone 6-2 bottom is provided with aeration regulator control system 6-3, and described aeration regulator control system 6-3 comprises aeration plate, gas blower and dissolved oxygen sensing regulation device, and further, described aeration plate is the pore type aeration plate being evenly provided with micropore.Described aeration plate connects gas blower by aeration tube, and gas blower is arranged on outside Aerobic Pond, and top, the waste water underwater of Aerobic Pond arrange dissolved oxygen sensing regulation device, and described dissolved oxygen sensing regulation device is according to the work of oxygen capacity regulation and control gas blower; The exit of described Aerobic Pond is laid with overflow weir 6-4.
The rising pipe of described Aerobic Pond connects second pond, the qualified discharge after precipitation of the water after process.
Adopt above-mentioned high density to carry out a method for wastewater treatment containing PVA desized wastewater treatment unit, there are following steps:
1. high density enters wastewater equalization pond adjust ph, water quality and the water yield containing PVA desized wastewater by water inlet pipe.
2. the water after regulating enters coagulative precipitation tank 2 by the water inlet pipe 2-3 bottom coagulative precipitation tank 2 mix and blend district 2-1, mixes with the polysilicate sulfuric acid aluminium liquid from liquid add-on system 2-4, utilizes the whipping appts 2-5 be arranged in the middle part of stirring area to stir; Mixed waste water enters the waste water runner of settling region 2-2, and the triphase separator 2-7 of settling region realizes mud-water separation.Mud sinks to the bottom of settling region 2-2 under gravity, is discharged by the sediment discharge valve 2-9 of bottom.Waste water is communicated with the water inlet pipe 3-3 in pond 3 of saltouing by overfalling weir 2-8, rising pipe and pipe connecting.
Further, coagulating sedimentation condition is: pH is between 5 ~ 10, and temperature of reaction is between 20 ~ 40 DEG C, and sedimentation time is 40 ~ 60min, and the dosage of coagulating agent polysilicate sulfuric acid aluminium is determined according to the experiment of waste water quality situation.
3. sewage enters by the water inlet pipe 3-3 bottom mix and blend district, pond of saltouing pond 3 of saltouing, and mixes with the liquid from liquid add-on system, utilizes the whipping appts 3-5 be arranged in the middle part of stirring area to stir; Waste water carries out at settling region 3-2 reaction of saltouing, and the triphase separator 3-7 of settling region realizes mud-water separation.The throw outs such as PVA sink to the bottom of settling region 3-2 under gravity, are discharged by the sediment discharge valve 3-9 of bottom and are recycled.Waste water connects the water inlet pipe 4-3 of advanced oxidation reaction settling basin 4 by overfalling weir 3-8, rising pipe and pipe connecting.
Further, reaction conditions of saltouing is: temperature 40 ~ 50 DEG C, and pH is between 8.0 ~ 9.5, and the reaction times is 30min.The liquid of the interpolation of liquid add-on system is: borax, sodium sulfate and Tai-Ace S 150, and respective dosage is determined according to the experiment of waste water quality situation
4. the water after salt precipitation enters advanced oxidation reaction settling basin 4 by the water inlet pipe 4-3 bottom advanced oxidation reaction settling basin 4 mix and blend district 4-1, mix with from the hydrogen peroxide of liquid add-on system 4-4, the liquid of ferrous salt, utilize the whipping appts 4-5 be arranged in the middle part of stirring area to stir; The reaction of hydrogen peroxide, ferrous salt produces hydroxyl radical free radical active in a large number, destroy the structure of dirty water pollutant, the oxidized decomposition of pollutent in waste water, the waste water after oxygenolysis enters the waste water runner of settling region 4-2, and the triphase separator 4-7 of settling region realizes mud-water separation.
Further, the dosage of hydrogen peroxide, ferrous salt liquid is determined according to the experiment of waste water quality situation.
5. mud sinks to the bottom of advanced oxidation reaction settling basin 4 settling region 4-2 under gravity, is discharged by the sediment discharge valve 4-9 of bottom.Waste water is communicated with the water inlet pipe 5-5 of iris type anoxic anaerobic reation pool 5 by overfalling weir 4-8, rising pipe with pipe connecting.
6. sewage enters the bottom of iris type anoxic anaerobic reation pool 5 by the hold concurrently water inlet pipe 5-5 of oxygen section 5-2 of iris type anoxic anaerobic reation pool 5; Advance up and down along flow-stopping plate 5-1 after waste water enters reaction tank, successively by the Sludge Bed of each reaction chamber of hold concurrently oxygen section 5-2, anoxic section 5-3 and anaerobism section 5-4, mud in reaction tank moves along with the upper current downflow of waste water and the effect of biogas rising, the settlement action of the barrier effect of flow-stopping plate 5-1 and mud self makes again the flow velocity of mud reduce, therefore a large amount of mud is all trapped within reaction tank, and the microorganism in reaction tank fully contacts with the organism in waste water.The suspended contaminant such as the starch in sewage, fiber, carbohydrate and dissolved organic matter are hydrolyzed to organic acid by the double amphimicrobe of oxygen section 5-2, the heterotrophic bacterium of anoxic section 5-3 and anaerobism section 5-4, make larger molecular organics be decomposed into small organic molecule, insoluble organism changes into dissolved organic matter.
7. the waste water after anaerobic reaction realizes the separation of mud, water, methane gas at the triphase separator 5-6 that anaerobism section 5-4 end is provided with, and mud sinks to anaerobism pars infrasegmentalis under gravity, and unnecessary mud is discharged by the mud discharging valve 5-8 of bottom.The waste gas such as the methane that iris type anoxic anaerobic reation pool produces collect discharge by reaction tank top effuser 5-10.Waste water is communicated with the water inlet pipe 6-1 of Aerobic Pond 6 by overfalling weir 5-7, rising pipe with pipe connecting.
8. waste water enters the middle and lower part of Aerobic Pond by water inlet pipe 6-1, water distribution uniformity under the effect of water distribution pyrometric cone 6-2, described aeration plate is the pore type aeration plate being evenly provided with micropore, produce a large amount of microbubbles, described dissolved oxygen sensing regulation device, according to the work of oxygen capacity regulation and control gas blower, guarantees that the dissolved oxygen in Aerobic Pond water is greater than 2mg/L; Waste water after process is flowed out by overflow weir 6-4.
9. the rising pipe of Aerobic Pond 6 connects the water distributor of second pond, the water qualified discharge after precipitation, and a precipitating sludge part for second pond is back to Aerobic Pond, and a part is as excess sludge.
10. transport outward after the excess sludge dehydration that coagulative precipitation tank 2, advanced oxidation reaction settling basin 4, iris type anoxic anaerobic reation pool 5, Aerobic Pond 6 and second pond produce.
With above-mentioned according to desirable embodiment of the present invention for enlightenment, by above-mentioned description, relevant staff can carry out various change and amendment completely in the scope not departing from this invention technological thought.The technical scope of this invention is not limited to the content on specification sheets, must determine its technical scope according to right.