CN204224393U - Sewage Plant waste disposal plant - Google Patents

Abstract

A kind of Sewage Plant waste disposal plant, comprises sewage manifold trunk, except slag bath, settling pit, anaerobic pond, oxidation ditch, second pond, disinfecting tank, sewage sludge storage pond, concentration basin, abstraction pool, drying and crushing machine.Except slag bath is communicated with sewage manifold trunk, settling pit is communicated with except slag bath, and anaerobic pond is communicated with settling pit, and oxidation ditch is communicated with anaerobic pond, second pond is communicated with oxidation ditch, disinfecting tank is communicated with second pond, and sewage sludge storage pond is communicated with second pond, oxidation ditch and anaerobic pond, and concentration basin is communicated with sewage sludge storage pond, abstraction pool is communicated with concentration basin, drying and crushing machine is communicated with abstraction pool, is provided with dosing mouth in described abstraction pool, for adding citric acid.Above-mentioned Sewage Plant waste disposal plant, effectively can reduce COD and BOD of Sewage Plant sewage, can slough the heavy metal in bed mud simultaneously, its chemurgy be utilized, and reduces secondary environmental pollution, improves resource utilization.

Description

Sewage Plant waste disposal plant

Technical field

The utility model relates to sewage treatment area, particularly relates to a kind of Sewage Plant waste disposal plant.

Background technology

The sewage produced in human lives's process, be one of primary pollution source of water body, it mainly comprises ight soil and wash water etc.The sanitary sewage amount that city is discharged everyone every day is 150L ~ 400L, and its amount has substantial connection with standard of living.Containing large amount of organic in sanitary sewage, as Mierocrystalline cellulose, starch, carbohydrate and fat protein etc.; Also often containing pathogenic bacteria, virus and parasitic ovum; The muriate of inorganic salts, vitriol, phosphoric acid salt, supercarbonate and sodium, potassium, calcium, magnesium and a small amount of heavy metal etc.

For the problems referred to above, current most of city is all provided with after sewage disposal point processes these sanitary sewages and is disposed to the external world again, to preserve the ecological environment.The sanitary sewage of city resident enters sewage treatment plants by pipeline, through processes such as oxygenation, stirring, fermentation, precipitations, sewage is become clean, free of contamination water, protects river course and urban water resource, protect environment.

But due to reasons such as precipitation and chemical reactions in the process of process sanitary sewage, can produce a large amount of solid impurities, these solid impurities can precipitate, and then create a large amount of mud.Containing a large amount of organic matters and n-p-k element in mud, COD value is higher, cannot reach discharging standards far away.City domestic sewage treatment plant is since setting up, and people are making great efforts to study the fertilizer how utilizing sanitary sewage disposal mud, particularly people to expect to manufacture with sanitary sewage disposal mud agriculture production use always.But excess sludge is usually containing a large amount of hazardous and noxious substances, as parasitic ovum, pathogenic micro-organism, heavy metal, and the organism of non-stabilization, if do not dealt carefully with and disposal, these mud are directly applied in crop, direct or potential pollution can be caused to environment.

Such as, Chinese patent 201310654721.X discloses a kind of processing method of sewage disposal, it specifically discloses a kind of processing method of sewage disposal, water sampling 1000mL, adds lime slurry and stirs, add coagulating agent again to stir, then settlement separate after adding PAM solution stirring, get supernatant liquor 900mL, after KMn04 oxidation, dosing coagulation again, gets that supernatant liquor carries out filtering, activated carbon adsorption.Present invention process is simple, and occupation area of equipment is little, economical rationality compared with other sewage water treatment method domestic at present.

Such as, Chinese patent 201210489896.5 discloses a kind of sewage water treatment method, it specifically discloses environmental protection technical field, a kind of sewage water treatment method specifically, concrete steps are: sewage is inputed to mechanical grille, the equalizing tank that catchments is entered by the sewage of mechanical grille, again the sewage catchmented in equalizing tank is inputed to sewage cooling tower, sewage through cooling tower cooling inputs to coagulative precipitation tank, sewage through coagulating sedimentation enters to CASS pond, the sewage processed through CASS pond is through biological filter, finally obtain the water processed.The invention has the advantages that described sewage water treatment method impact load is adaptable, not easily sludge bulking occurs, floor space is little, simple and convenient management.

But above-mentioned disclosed patent still effectively cannot remove the problem that in organism in Sewage Plant sewage and sewage treatment process, recycling sludge utilizes simultaneously.

Utility model content

Based on this, be necessary to provide a kind of COD that effectively can reduce Sewage Plant sewage and the Sewage Plant waste disposal plant utilized by recycling sludge.

A kind of Sewage Plant waste disposal plant, comprises sewage manifold trunk, except slag bath, settling pit, anaerobic pond, oxidation ditch, second pond, disinfecting tank, sewage sludge storage pond, concentration basin, abstraction pool, drying and crushing machine;

The described slag bath that removes is communicated with described sewage manifold trunk, described settling pit is communicated with the described slag bath that removes, described anaerobic pond is communicated with described settling pit, described oxidation ditch is communicated with described anaerobic pond, described second pond is communicated with described oxidation ditch, described disinfecting tank is communicated with described second pond, described sewage sludge storage pond is communicated with described second pond, described oxidation ditch and described anaerobic pond, described concentration basin is communicated with described sewage sludge storage pond, described abstraction pool is communicated with described concentration basin, and described drying and crushing machine is communicated with described abstraction pool;

Dosing mouth is provided with, for adding citric acid in described abstraction pool.

Wherein in an embodiment, except being provided with middle grid and fine fack in slag bath.

Wherein in an embodiment, the grizzly bar gap of described fine fack is 8mm.

Wherein in an embodiment, the setting angle of described fine fack and horizontal plane is 75 degree.

Wherein in an embodiment, described oxidation ditch is Carrousel oxidation ditch.

Wherein in an embodiment, described settling pit is rotational flow grit chamber.

Wherein in an embodiment, described anaerobic pond is flow lifting type anaerobic filter.

Above-mentioned Sewage Plant waste disposal plant, by arranging except slag bath, settling pit, anaerobic pond, oxidation ditch, disappear disinfecting tank, effectively can reduce COD and BOD of Sewage Plant sewage, it is made to reach emission standard, meanwhile, by utilizing abstraction pool to slough heavy metal in mud, the bed mud chemurgy produced is utilized, decrease secondary environmental pollution, improve resource utilization; Meanwhile, this method also has the advantages such as operational path is short, and cost is lower, convenient operation.

Accompanying drawing explanation

Fig. 1 is the schema of the Sewage Plant sewage water treatment method of an embodiment;

Fig. 2 is the structural representation of the Sewage Plant waste disposal plant of an embodiment.

Embodiment

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail embodiment of the present utility model below in conjunction with accompanying drawing.Set forth a lot of detail in the following description so that fully understand the utility model.But the utility model can be much different from alternate manner described here to implement, those skilled in the art can when doing similar improvement without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public concrete enforcement.

As shown in Figure 1, the Sewage Plant sewage water treatment method of an embodiment comprises the steps:

S110: Sewage Plant sewage is removed the gred, except silt, obtains the first pretreating sewage plant sewage.

Remove larger suspended substance and floating matter in Sewage Plant sewage, prevent subsequent processing device from blocking.By Sewage Plant sewage is removed Slag treatment, remove larger suspended substance and floating matter in Sewage Plant sewage, prevent subsequent processing device from blocking.

Such as, by Sewage Plant sewage respectively by middle grid, fine fack, larger suspended substance and floating matter in interception Sewage Plant sewage.And for example, the grizzly bar gap of middle grid is 20mm, and the grizzly bar gap of fine fack is 8mm, Sewage Plant sewage enters middle grid, the flow velocity of fine fack is 0.8m/s, like this, effectively can remove the macrobead suspended substance in Sewage Plant sewage and floating matter, prevent subsequent processing device from blocking.

In order to the contact area of grid in increasing and fine fack and Sewage Plant sewage, such as, the setting angle of middle grid and horizontal plane is 75 °, the setting angle of fine fack and horizontal plane is 75 °, the speed of sanitary sewage by middle grid and fine fack can be accelerated like this, accelerate the processing speed of Sewage Plant sewage, thus improve the processing efficiency of Sewage Plant sewage.

By removing the silt in Sewage Plant sewage, reducing the impact that silt sets subsequent disposal, also can reduce the turbidity of Sewage Plant sewage simultaneously, alleviating the burden of subsequent treatment process.

Such as, Sewage Plant sewage is passed into settling pit, based on gravity or centrifugal force separate, the Sewage Plant effluent flow rate being about to enter settling pit controls to sink at the inorganic particle that relative density can only be made large, as, 0.1m/s ~ 0.3m/s, organic suspension particle is then taken away with current, thus sand, inorganic particle that cinder isodensity is larger can be removed from sewage, in order to avoid the normal operation of these impurity effect subsequent treatment process.

And for example, Sewage Plant sewage is passed into rotational flow grit chamber, rotational flow grit chamber produces waterpower eddy current by the stirring of machinery, makes silt, haydite and separating organic matters to reach object of removing sand.

And for example, the foreign material produced in step S110, haydite, sand grains etc., regularly can be transported to rubbish factory landfill disposal, reduces environmental pollution.

S120: by the first pretreating sewage plant sewage by anaerobic treatment, obtain the second pretreating sewage plant sewage and the first pre-treatment bed mud.

Be appreciated that COD (Chemical Oxygen Demand), i.e. chemical oxygen demand (COD) is under certain conditions, when adopting certain strong oxidizer process water sample, and the oxidant content consumed.It is the index representing that in water, reducing substances is how many.Reducing substances in water has various organism, nitrite, sulfide, ferrous salt etc., but importantly organism.Therefore, chemical oxygen demand (COD) is again often as weighing the how many index of Organic substance in water matter content.Chemical oxygen demand (COD) is larger, illustrates that water body is more serious by organic pollution.

BOD (Biochemical Oxygen Demand), and biochemical oxygen demand (BOD) or biochemical oxygen demand (referring generally to biochemical oxygen requirement on the five), represent a comprehensively instruction of the aerobic pollution matter content such as Organic substance in water.Biochemical oxygen demand (BOD) refers under defined terms, the dissolved oxygen of the Biochemical processes consumption of some oxidizable species, particularly decomposing organic matter in microbial decomposition water.Refer to that water sample is full of in completely airtight dissolved oxygen bottle under normal circumstances, cultivate 5d the dark places of 20 DEG C, measure the mass concentration of dissolved oxygen in water sample before and after cultivating respectively, by the difference of the mass concentration of dissolved oxygen before and after cultivation, calculate the dissolved oxygen content that often liter of sample consumes, represent with BOD5 form.Its value higher explanation organic pollutants matter is more, pollutes also more serious.

First pretreating sewage plant sewage is being carried out in the process of anaerobic treatment, based on the complicated organism in the first pretreating sewage plant sewage under the effect of anaerobion and facultative microbe, complicated organic substance decomposing becomes methane, carbonic acid gas, water, the material such as hydrogen sulfide and ammonia, thus COD and BOD of Sewage Plant sewage can be significantly reduced, greatly facilitate the reaction efficiency of follow-up aerobic treatment, simultaneously, due to anoxic in anaerobic treatment process, the effect of the factor such as free ammonia and temperature, the pathogenic bacteria of Sewage Plant sewage can be killed, virus and parasitic ovum etc.

In order to ensure that anaerobion breeds better, such as, the temperature in anaerobic process being controlled at 5 DEG C ~ 60 DEG C, preferably, temperature being controlled at 20 DEG C ~ 40 DEG C.And for example, the pH value of the first pretreating sewage plant sewage in anaerobic process is controlled 6.8 ~ 7.8, preferably, the pH of the first pretreating sewage plant sewage is controlled 7.2 ~ 7.6, thus anaerobion is bred better, improve organic degradation speed in the first pretreating sewage plant sewage.

Due in anaerobic treatment process, organic reduction have passed through hydrolysis, acidifying, product acid and methane phase four-stage, like this for some long-chains and band phenyl ring etc. be difficult to by aerobic bacteria the organism of degrading by Hydrolysis Acidification resolve into small-molecule substance or chain rupture utilize by anaerobion, improve the biological degradability of Sewage Plant sewage.

Such as, flow lifting type anaerobic filter can be adopted to carry out anaerobic treatment, top, filter tank and sealed bottom; filler is filled in filter tank; as, sandstone, haydite or baton round etc.; microorganic adhesion is at filling surface; when Sewage Plant sewage is upwards by packing layer, under the effect of the anaerobe film of filling surface, the organism in Sewage Plant sewage is degraded; and producing biogas, biogas is discharged from top, filter tank.Because filler is that attached growth of microorganisms provides larger surface-area, thus can improve organic degradation speed, and filler can also play a role in filtering, and retains the suspended substance in sewage.

S130: by the second pretreating sewage plant sewage by oxidation ditch, obtain the 3rd pretreating sewage plant sewage and the second pre-treatment bed mud.

By the second pretreating sewage plant sewage is entered oxidation ditch, in oxidation ditch, the mixed solution of Sewage Plant sewage and active sludge is under the effect of additionaling power, ceaselessly circulate, utilize in oxidation ditch the biological denitrification system constructing anaerobism-anoxic-aerobic, organonitrogen in second pretreating sewage plant sewage is converted into nitrate nitrogen under the effect of nitrifier, and at anaerobism section, nitrate nitrogen is converted into again nitrogen and discharges by denitrifying bacteria; Organophosphorus in second pretreating sewage plant sewage is absorbed by polyP bacteria, discharges phosphoric acid salt, reduce further COD and BOD of Sewage Plant sewage.

In order to be more conducive to microbial growth in oxidation ditch, such as, Sewage Plant sewage is regulated to enter the water yield of oxidation ditch, make load in oxidation ditch at 0.05 ~ 0.12Kg BOD/ (MLSSd), and for example, control the temperature of Sewage Plant sewage between 20 DEG C ~ 30 DEG C, and for example, keep the dissolved oxygen of oxidation ditch at 2mg/L ~ 3mg/L, and for example, control ph is 6.2 ~ 8.6, and for example, carbon containing nutrition is added in oxidation ditch, make the ratio of BOD:N:P at 130 ~ 100:5:1, like this, microbial growth in oxidation ditch can be beneficial to, improve the denitrogenation dephosphorizing speed of organism in oxidation ditch.

And for example, the second pretreating sewage plant sewage is 12h ~ 14h in the residence time of oxidation ditch, makes the organism of the second pretreating sewage plant sewage degradable in oxidation ditch.

The nutritive elements such as carbon, nitrogen, phosphorus are rich in due in the second bed mud of obtaining through oxidation ditch, such as, the second bed mud produced in oxidation ditch is partly refluxed to anaerobic pond, as the nutrition of microorganism in anaerobic pond, the interpolation of anaerobic treatment Middle nutrition thing can be reduced, reduce processing cost.

S140: the 3rd pretreating sewage plant sewage is carried out precipitation process, obtains the 4th pretreating sewage plant sewage and the 3rd pre-treatment bed mud.

Be appreciated that, after oxidation ditch, amount of activated mud can be brought in 3rd pretreating sewage plant sewage, in order to remove the active sludge in the second pretreating sewage plant sewage, such as, the 3rd pretreating sewage plant sewage is left standstill, active sludge is deposited completely, and for example, leave standstill after adding flocculation agent in the 3rd pretreating sewage plant sewage.

In order to make the active sludge in the 3rd pretreating sewage plant sewage farthest deposit, such as, time of repose is 2h ~ 4h.

S150: carry out disinfection the 4th pretreating sewage plant sewage germicidal treatment, discharges.

In order to remove the pathogenic microbes in the 4th pretreating sewage plant sewage, such as, dioxide peroxide disinfection is added toward the 4th pretreating sewage plant sewage.

And for example, Sewage Plant sewage is passed into sterilization pool, inhale at pump and drop into sterilizing agent, through the intense mixing of water pump, sterilizing agent fully contacts with Sewage Plant sewage, sterilizing agent is fully contacted with bacterium, reaches sterilisation purpose.And for example, sterilizing agent is dioxide peroxide and chlorine gas mixture.

Because the chlorine residue during Sewage Plant sewage is after cholorination can cause disadvantageous effect to water body environment and aquatic organism, and for example, in the 3rd pretreating sewage plant sewage after sterilization, add S-WAT, the available chlorine in removing Sewage Plant sewage.

S160: the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud are carried out thickening process, obtains the 4th pre-treatment bed mud.

Be appreciated that the water content of the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud is higher, volume is comparatively large, and conveying, process or disposal are all inconvenient.As, the water content of the second pre-treatment bed mud produced by oxidation ditch can reach more than 99%, has highly variable.In order to reduce the water content of the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud, reducing volume, reducing subsequent disposal burden, such as, gravity concentration being carried out to the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud.And for example, centrifugal concentrating is carried out to the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud.And for example, floatation thickening is carried out to the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud.

In order to reduce the water ratio of the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud further, such as, process is dehydrated to the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud.And for example, the first pre-treatment bed mud, the second pre-treatment bed mud and the 3rd pre-treatment bed mud are carried out mechanical dehydration process.

S170: add citric acid toward the 4th pre-treatment bed mud, after liquid-solid extraction, by lower sediment drying and crushing, obtain agricultural bed mud.

In order to slough the heavy metal in the 4th pre-treatment bed mud, such as, in the 4th pre-treatment bed mud, adding citric acid, after stirring, leaving standstill, after solid-liquid separation, obtaining agricultural bed mud by after lower sediment drying.Utilize citric acid heavy metal to have stronger complex ability, the heavy metal in the 4th pre-treatment bed mud is dissolved in citric acid, thus sloughs the heavy metal in the 4th pre-treatment bed mud.

In order to farthest slough the heavy metal in the 4th pretreating sludge, such as, in the 4th pre-treatment bed mud, add citric acid, after stirring 24h, leave standstill process again, and for example, after the 4th pre-treatment bed mud is carried out ultrasonic grinding, the particle diameter of the 4th pretreating sludge is made to reach 0.1cm ~ 0.3cm, after adding citric acid stirring 24h again, leave standstill process, like this, the heavy metal rate of sloughing in mud can be made to reach more than 90%.

Such as, in the present embodiment, the concentration of citric acid is 0.2mol/L, and the solid-to-liquid ratio of citric acid and the 4th pre-treatment bed mud is 20:1, like this, both can ensure that higher metal ion sloughed rate, also can reduce the usage quantity of citric acid simultaneously, reduces reagent cost.

And for example, soda-lime can also be added in the lower sediment after solid-liquid separation, like this, the pH of lower sediment can be regulated to neutral, and meanwhile, soda-lime also can slough the part free-water in lower sediment, kill the microorganism such as the roundworm egg in lower sediment, class coliform, obtain agricultural bed mud.

Above-mentioned Sewage Plant sewage water treatment method, by removing the gred to Sewage Plant sewage, remove silt, anaerobic treatment, oxidation ditch process, after disinfection process, effectively can reduce COD and BOD of Sewage Plant sewage, make it reach emission standard, simultaneously, by utilizing citric acid to slough heavy metal in mud, decreasing secondary environmental pollution, improve resource utilization; Meanwhile, this method also has the advantages such as operational path is short, and cost is lower, convenient operation.

Such as, in order to introduce above-mentioned Sewage Plant sewage water treatment method further, the utility model also provides a kind of Sewage Plant waste disposal plant.

As shown in Figure 2, it is the structural representation of the Sewage Plant waste disposal plant 10 of an embodiment.

Refer to Fig. 2, Sewage Plant waste disposal plant, comprises sewage manifold trunk 100, except slag bath 200, settling pit 300, anaerobic pond 400, oxidation ditch 500, second pond 600, disinfecting tank 700, mud collecting pond 800, concentration basin 900, abstraction pool 900a, drying and crushing machine 900b.

Refer to Fig. 2, except the exit end of slag bath 200 with sewage manifold trunk is communicated with.By passing into except slag bath 200 by the Sewage Plant sewage in sewage manifold trunk 100, larger suspended substance and floating matter in removing Sewage Plant sewage, prevent subsequent processing device from blocking.

Such as, be provided with middle grid and fine fack except in slag bath 200, by Sewage Plant sewage respectively by middle grid, fine fack, larger suspended substance and floating matter in interception Sewage Plant sewage.And for example, the grizzly bar gap of middle grid is 20mm, and the grizzly bar gap of fine fack is 8mm, Sewage Plant sewage enters middle grid, the flow velocity of fine fack is 0.8m/s, like this, effectively can remove the macrobead suspended substance in Sewage Plant sewage and floating matter, prevent subsequent processing device from blocking.

In order to the contact area of grid in increasing and fine fack and Sewage Plant sewage, such as, the setting angle of middle grid and horizontal plane is 75 °, the setting angle of fine fack and horizontal plane is 75 °, the speed of sanitary sewage by middle grid and fine fack can be accelerated like this, accelerate the processing speed of Sewage Plant sewage, thus improve the processing efficiency of Sewage Plant sewage.

Refer to Fig. 2, settling pit 300 is communicated with except slag bath 200.Sewage Plant sewage in slag bath 200 is passed in settling pit 300, the silt in Sewage Plant sewage can be removed, reduce the impact that silt sets subsequent disposal, also can reduce the turbidity of Sewage Plant sewage simultaneously, alleviate the burden of subsequent treatment process.

Such as, Sewage Plant sewage is passed into settling pit 300, based on gravity or centrifugal force separate, the Sewage Plant effluent flow rate being about to enter settling pit 300 controls to sink at the inorganic particle that relative density can only be made large, as, 0.1m/s ~ 0.3m/s, organic suspension particle is then taken away with current, thus sand, inorganic particle that cinder isodensity is larger can be removed from Sewage Plant sewage, in order to avoid the normal operation of these impurity effect subsequent treatment process.

And for example, settling pit 300 is rotational flow grit chamber, and Sewage Plant sewage is passed into rotational flow grit chamber, and rotational flow grit chamber produces waterpower eddy current by the stirring of machinery, makes silt, haydite and separating organic matters to reach object of removing sand.

Refer to Fig. 2, anaerobic pond 400 is communicated with settling pit 300, is passed into by the supernatant liquid in settling pit 300 in anaerobic pond 400, and the organism in Sewage Plant sewage can be made to degrade, and reduces COD and BOD of Sewage Plant sewage.

Sewage Plant sewage is being carried out in the process of anaerobic treatment, based on the complicated organism in the first pretreating sewage plant sewage under the effect of anaerobion and facultative microbe, complicated organic substance decomposing becomes the materials such as methane, carbonic acid gas, water, hydrogen sulfide and ammonia, thus COD and BOD of Sewage Plant sewage can be significantly reduced, greatly facilitate the reaction efficiency of follow-up aerobic treatment, simultaneously, due to the effect of the factors such as anoxic, free ammonia and temperature in anaerobic pond 400, the pathogenic bacteria of Sewage Plant sewage, virus and parasitic ovum etc. can be killed.

In order to ensure that anaerobion breeds better, such as, the temperature in anaerobic process being controlled at 5 DEG C ~ 60 DEG C, preferably, temperature being controlled at 20 DEG C ~ 40 DEG C.And for example, the pH value of the first pretreating sewage plant sewage in anaerobic process is controlled 6.8 ~ 7.8, preferably, the pH of Sewage Plant sewage in anaerobic pond 400 is controlled 7.2 ~ 7.6, thus anaerobion is bred better, organic degradation speed in Sewage Plant sewage in raising anaerobic pond 400.

Due in anaerobic treatment process, organic reduction have passed through hydrolysis, acidifying, product acid and methane phase four-stage, like this for some long-chains and band phenyl ring etc. be difficult to by aerobic bacteria the organism of degrading by Hydrolysis Acidification resolve into small-molecule substance or chain rupture utilize by anaerobion, improve the biological degradability of Sewage Plant sewage.

Such as, anaerobic pond 400 is flow lifting type anaerobic filter, and settling pit 300 is communicated with the bottom of anaerobic pond 400.Top, filter tank and sealed bottom, fill filler in filter tank, microorganic adhesion is at filling surface, when Sewage Plant sewage is upwards by packing layer, under the effect of the anaerobe film of filling surface, the organism in Sewage Plant sewage is degraded, and producing biogas, biogas is discharged from top, filter tank.Because filler is that attached growth of microorganisms provides larger surface-area, thus can improve organic degradation speed, and filler can also play a role in filtering, and retains the suspended substance in sewage.

Refer to Fig. 2, oxidation ditch 500 is communicated with anaerobic pond 400, by passing in oxidation ditch 500 by the Sewage Plant sewage in anaerobic pond 400, can reduce COD and BOD of Sewage Plant sewage further.

By the Sewage Plant sewage in anaerobic pond 400 is entered oxidation ditch 500, in oxidation ditch 500, the mixed solution of Sewage Plant sewage and active sludge is under the effect of additionaling power, ceaselessly circulate, utilize in oxidation ditch the biological denitrification system constructing anaerobism-anoxic-aerobic, organonitrogen in Sewage Plant sewage is converted into nitrate nitrogen under the effect of nitrifier, and at anaerobism section, nitrate nitrogen is converted into again nitrogen and discharges by denitrifying bacteria; Meanwhile, the organophosphorus in Sewage Plant sewage is absorbed by polyP bacteria, discharges phosphoric acid salt, reduce further COD and BOD of Sewage Plant sewage.

In order to be more conducive to microbial growth in oxidation ditch 500, such as, Sewage Plant sewage is regulated to enter the water yield of oxidation ditch, make load in oxidation ditch at 0.05 ~ 0.12Kg BOD/ (MLSSd), and for example, control the temperature of Sewage Plant sewage between 20 DEG C ~ 30 DEG C, and for example, keep the dissolved oxygen of oxidation ditch at 2mg/L ~ 3mg/L, and for example, control ph is 6.2 ~ 8.6, and for example, carbon containing nutrition is added in oxidation ditch, make the ratio of BOD:N:P at 130 ~ 100:5:1, like this, microbial growth in oxidation ditch can be beneficial to, improve the denitrogenation dephosphorizing speed of organism in oxidation ditch.

Such as, oxidation ditch 500 is Carrousel oxidation ditch, and technique is simple, and be easy to control, and BOD degradation rate can reach 95% ~ 98%, COD degradation rate can reach 90% ~ 95%.

Refer to Fig. 2, second pond 600 is communicated with oxidation ditch 500, passes into second pond 600 by by the Sewage Plant sewage in oxidation ditch 500, makes it reach mud-water separation effect.

Be appreciated that, after oxidation ditch 500, amount of activated mud can be brought in Sewage Plant sewage, in order to remove the active sludge in Sewage Plant sewage, such as, the second pretreating sewage plant sewage is left standstill, active sludge is deposited completely, and for example, leave standstill after adding flocculation agent in the second pretreating sewage.

Refer to Fig. 2, disinfecting tank 700 is communicated with second pond 600, the supernatant liquid in second pond 600 is passed into disinfecting tank 700 and to carry out disinfection germicidal treatment, make it reach emission standard, discharges.

Such as, Sewage Plant sewage is passed into disinfecting tank 700, inhale at pump and drop into sterilizing agent, through the intense mixing of water pump, sterilizing agent fully contacts with Sewage Plant sewage, available chlorine is fully contacted with bacterium, reaches sterilisation purpose.

Because the chlorine residue during Sewage Plant sewage is after cholorination can cause disadvantageous effect to water body environment and aquatic organism, and for example, in the Sewage Plant sewage after sterilization, add S-WAT, the available chlorine in removing Sewage Plant sewage.

And for example, in the middle of second pond 600 and disinfecting tank 700, be provided with magnetic flow meter, control the flooding quantity entering disinfecting tank 800, and then control the amount of sterilizing agent.

Refer to Fig. 2, sewage sludge storage pond 800 is communicated with anaerobic pond 400, oxidation ditch 500 and second pond 600 respectively, the mud bottom anaerobic pond 400, oxidation ditch 500 and second pond 600 is passed into sewage sludge storage pond 800, carries out subsequent disposal after being collected by mud.

Refer to Fig. 2, concentration basin 900 is communicated with sewage sludge storage pond 800, inputs in concentration basin 900, carry out thickening to bed mud by the bed mud in sewage sludge storage pond 800 by sludge pump, reduces the volume of bed mud, alleviates the burden of subsequent technique.

Such as, concentration basin 900 is floatation thickening pond, is provided with chain-type mud scraper and degassed pond in floatation thickening pond, and like this, the concentrated speed of bed mud is faster, and the bed mud solid content obtained is higher.

And for example, in concentration basin, be also provided with mechanical dehydration machine, the bed mud after concentrated is carried out processed further.

Refer to Fig. 2, abstraction pool 900a is communicated with concentration basin 900, is inputed in abstraction pool 900a by the bed mud after concentration basin 900 is concentrated, sloughs the heavy metal in bed mud, bed mud chemurgy is utilized.

Add citric acid toward abstraction pool 900a, utilize citric acid heavy metal to have stronger complex ability, the heavy metal in bed mud is dissolved in citric acid, thus reach the object of the heavy metal sloughed in bed mud.

The conveniently interpolation of citric acid, such as, is provided with dosing mouth in abstraction pool 900a, facilitates the interpolation of citric acid.

In order to make bed mud fully mix with citric acid, such as, in abstraction pool 900a, being provided with whipping appts, like this, bed mud can being made fully to contact with citric acid, the heavy metal in bed mud is dissolved in citric acid.

And for example, larger contact area is had in order to make bed mud and citric acid, ultrasonic grinder is provided with in the middle of abstraction pool 900a and concentration basin 900, bed mud after thickening is broken through excusing from death ripple, form the particle between 0.3cm ~ 0.8cm, like this, bed mud and citric acid can be made to have larger contact area, heavy metal is dissolved completely in citric acid.

Refer to Fig. 2, drying and crushing machine 900b is communicated with abstraction pool 900a, is passed into by the bed mud in abstraction pool 900a in drying and crushing machine 900b, after carrying out drying and crushing, obtains agricultural bed mud.

Above-mentioned Sewage Plant waste disposal plant 10, by arranging except slag bath, settling pit, anaerobic pond, oxidation ditch, disappear disinfecting tank, effectively can reduce COD and BOD of Sewage Plant sewage, it is made to reach emission standard, meanwhile, by utilizing abstraction pool to slough heavy metal in mud, the bed mud chemurgy produced is utilized, decrease secondary environmental pollution, improve resource utilization; Meanwhile, this method also has the advantages such as operational path is short, and cost is lower, convenient operation.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (7)

1. a Sewage Plant waste disposal plant, is characterized in that, comprises sewage manifold trunk, except slag bath, settling pit, anaerobic pond, oxidation ditch, second pond, disinfecting tank, sewage sludge storage pond, concentration basin, abstraction pool, drying and crushing machine;

The described slag bath that removes is communicated with described sewage manifold trunk, described settling pit is communicated with the described slag bath that removes, described anaerobic pond is communicated with described settling pit, described oxidation ditch is communicated with described anaerobic pond, described second pond is communicated with described oxidation ditch, described disinfecting tank is communicated with described second pond, described sewage sludge storage pond is communicated with described second pond, described oxidation ditch and described anaerobic pond, described concentration basin is communicated with described sewage sludge storage pond, described abstraction pool is communicated with described concentration basin, and described drying and crushing machine is communicated with described abstraction pool;

Dosing mouth is provided with, for adding citric acid in described abstraction pool.

2. Sewage Plant waste disposal plant according to claim 1, is characterized in that, except being provided with middle grid and fine fack in slag bath.

3. Sewage Plant waste disposal plant according to claim 2, is characterized in that, the grizzly bar gap of described fine fack is 8mm.

4. Sewage Plant waste disposal plant according to claim 2, is characterized in that, the setting angle of described fine fack and horizontal plane is 75 degree.

5. Sewage Plant waste disposal plant according to claim 1, is characterized in that, described oxidation ditch is Carrousel oxidation ditch.

6. Sewage Plant waste disposal plant according to claim 1, is characterized in that, described settling pit is rotational flow grit chamber.

7. Sewage Plant waste disposal plant according to claim 1, is characterized in that, described anaerobic pond is flow lifting type anaerobic filter.