KR20100092115A - External circulation anaerobic digester - Google Patents

Abstract

PURPOSE: An external-circulation type anaerobic digester is provided to minimize the lost amount of anaerobic micro-sludge through an outflow pipe by suppressing the increase of the anaerobic micro-sludge. CONSTITUTION: An external-circulation type anaerobic digester includes a waste-water inflow pipe(130), a distributor(140), a digestion tank(120). A first gas separator(150) and a second gas separator(160) are installed in the digestion tank to be spaced apart from each other. The gas separators separate remained micro sludge from collected gas and re-supplies the separated micro sludge into the digestion tank. A gas separation tank(180) discharges gas through a gas discharging pipe(184). A waste-water inflow unit(170) for a circulation operation is installed between the gas separators.

Description

[0001] EXTERNAL CIRCULATION ANAEROBIC DIGESTER [0002]

The present invention relates to an anaerobic digestion apparatus for treating organic wastewater in a biological treatment system for wastewater, and more particularly, to an anaerobic digestion apparatus capable of minimizing the loss of sludge containing microorganisms lifted by gas generated in the digester The present invention relates to an externally circulating anaerobic digestion device having a structure having a structure as shown in FIG.

Generally, wastewater is produced continuously by human activities and various industrial activities. If wastewater is not treated and introduced into a natural ecosystem while containing organic matter, it causes various diseases and causes adverse effects on human life.

Therefore, a system that removes organic substances from wastewater is indispensably required, and a method of treating wastewater physically and biologically is applied.

At this time, the physico-chemical treatment method has a disadvantage that the cost is high and the product after the treatment is reprocessed or disposed, and it is mainly used in the primary treatment and the tertiary treatment of urban living sewage.

The biological treatment method is mainly to decompose / detoxify / separate the contaminants in the wastewater by using microorganisms, and is mainly used for the secondary treatment of urban living sewage or the treatment of sludge produced from plant wastewater containing organic substances It is most widely used because of advantages such as relatively low expense and various process.

These biological treatment methods are divided into aerobic treatment and anaerobic treatment depending on whether oxygen is used or not. In the treatment methods, microorganisms form floating or floc uniformly in the wastewater, There are two main types.

Here, anaerobic treatment is a wastewater treatment method in which anaerobic microorganisms are used to decompose organic pollutants in wastewater into methane gas (CH ₄ ) and carbon dioxide (CO ₂ ) under an anaerobic condition in which oxygen is not present, An anaerobic filter method in which a carrier is installed in an anaerobic digestion tank using microbial adhesion properties and an Upflow Anaerobic Sludge Blanket (UASB) using granulation according to self immobilization of microorganisms, The construction method is usually applied.

However, since the anaerobic filter method has a carrier as a carrier, internal volume of the digester is reduced, treatment efficiency is lowered, short-circuit phenomenon frequently occurs in the digester, and the effluent becomes turbid.

As shown in FIG. 1, the conventional anaerobic digestion apparatus, which is a UASB-treated anaerobic digestion apparatus, is a system in which wastewater (inflow water) for anaerobic treatment is distributed / A digester 20 in which the wastewater supplied by the wastewater supply unit 10 is filled at a predetermined level and the anaerobic microorganism 1 is formed in turn from the bottom to the anaerobic sludge layer; And a gas separator 30 for separating / discharging the biogas 2 decomposed / elevated when the organic matter is removed by the action of anaerobic microorganisms in the wastewater flowing into the digester 20 above the digestion tank 20 The gas separated through the gas separator 30 is recovered / collected through a gas discharge pipe 40 connected to the upper surface of the digester 20 to be utilized as an energy source, Discharging the air and the waste organic matter is removed by a microbial action is to be introduced into the aeration tank after performing a treatment process for through the outflow pipe (50) linked to the top of the digester (20) to remove residual organic material.

However, the anaerobic digestion apparatus according to the related art having such a constitution is not limited to the gas separator 30 but may be constructed such that separation of the biogas 2 rising up to the upper layer of the digester 20 and the micro anaerobic sludge 1-1 The microbial anaerobic sludge (1 - 1) suffers from a disadvantage in that the amount of the micro-anaerobic sludge (1-1) piled up on the rise of the biogas is large and the sludge is massively washed out (washout) (Hereinafter, referred to as "scum") is lost due to a large amount of microbes are accumulated or reduced in the granules without being able to be granulated or reduced in the digestion tank, the efficiency of the removal of organic matter is reduced and the amount of suspended solids in the effluent becomes very high The amount of oxygen supplied to the aeration tank, which is a treatment process, is increased, and the sludge disposal cost and dehydration drug cost are increased. There was a problem of inducing a win.

In addition, in the conventional anaerobic digestion apparatus, the influent water distribution side of the wastewater supply unit is a single pipe type, and it is difficult or even incomplete to uniformly distribute influent water in the digester.

Of course, in order to solve such a problem, registered patent No. 0569704 filed by the present applicant has been proposed.

The present invention relates to an externally circulating anaerobic digester using biogas lifting, A wastewater inflow pipe for allowing wastewater in the regeneration tank storing the raw wastewater to flow into a lower portion of the digestion tank; a distributor for uniformly distributing / dispersing the inflow water through the wastewater inflow pipe in the digester; And a top gas separator for separating the gas from the biogas and the anaerobic micro sludge installed on the upper part of the digester, the digester having a granular anaerobic sludge layer formed in order from the bottom and having a large amount of the anaerobic microbial sludge, Wherein the anaerobic digester further comprises a collecting body for collecting the biogas rising from the lower side of the digester and the ascending anaerobic micro sludge while moving upward from the lower side in an inclined plane and moving toward the center side, At the center of the collector And a gas separation pipe for connecting the biogas and the anaerobic micro sludge to the inside of the collecting body and performing a suction process of the gas by the lifting property of the gas, A lower gas separator disposed in multiple rows for primarily separating gas prior to separation of the gas through the upper gas separator; A gas separation tank for collecting the gas separated through the gas separation pipe of the lower gas separator, separating residual fine sludge from the collected gas and re-supplying the gas into the digester, and discharging only the gas through the gas discharge pipe; And a granulated sludge discharge pipe connected to a lower side of the digester and allowing the surplus anaerobic granulated sludge in the digestion tank to flow out to the granulated sludge storage tank.

However, the anaerobic digestion apparatus disclosed in the above-mentioned patent is filled with a certain water level in the digestion tank and the granular anaerobic sludge layer is formed in order from the bottom, so that the anaerobic microorganism is proliferated and gas is generated. The gas layer is accumulated in the lower part of the digester by the sludge layer, and a certain amount of gas rapidly rises at the same time, and the newly generated anaerobic micro sludge is raised together. There is still a problem that the amount of the anaerobic micro sludge rising together with the rise of such gas is contained in the inflow water and is lost through the outflow pipe.

In addition, the anaerobic digestion apparatus disclosed in the above-mentioned patent has a high density of the sludge layer in a state where the anaerobic sludge is submerged by its own weight in the inner lower part of the digester as the flow rates of the lower part and the upper part in the digester are raised at the same low speed, The efficiency of contact between the inflow water and the anaerobic microorganisms is low and the organic matter of the inflow water flowing in the adjustment tank can not be efficiently removed.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to solve the above problems and to provide a digestion tank which is capable of maintaining the upward flow rate of the effluent water of the uppermost layer as it is, It is possible to prevent the gas layer from being formed in the granular anaerobic microorganism layer in the inner lower portion of the digestion tank and to prevent the formation of the gas layer, It is possible to increase the overall efficiency of the anaerobic microorganism, thereby facilitating the separation of the gas in the upper gas separator and suppressing the rise of the sludge and thereby the leakage of the scum to minimize the granulation of the micro sludge, The outside of the structure that can increase And an annular anaerobic digestion device.

Another object of the present invention is to provide an external circulating anaerobic digestion device capable of increasing decomposition efficiency by minimizing the amount of sludge piled up at the time of gas rising because the gas is not elevated at the bottom of the inside of the digestion tank.

In order to achieve the above object,

A wastewater inflow pipe for allowing wastewater in the adjustment tank to flow into a lower portion of the digestion tank; a distributor for uniformly distributing / dispersing the wastewater flowing into the digester into the digester through the wastewater inflow pipe; A digester in which a predetermined level is filled with wastewater and a granular anaerobic sludge layer is formed in order from the bottom and a large amount of the anaerobic microorganism sludge is contained and a biogas and anaerobic micro sludge which is raised during the removal of the organic matter of the wastewater by the anaerobic microorganism in the digester, A first and a second gas separator installed in the digester so as to separate gas from the first and second gas separators, and a second gas separator for separating the remaining fine sludge from the collected gas by collecting the gas separated through the first and second gas separators, The gas is fed back into the digester, And a gas separating tank for discharging the anaerobic microorganisms from the anaerobic digestion tank through the first separator and the second separator, wherein a rising flow rate of inflow water inside the digester is increased between the first and second gas separators, Further comprising a circulating wastewater inlet for circulating the wastewater that is raised at the bottom of the digester to the distributor so as to increase the contact opportunity of the anaerobic digester.

At this time, the circulating wastewater inflow device is provided with a plurality of funnel-shaped inflow ports in the inflow pipe, and the wastewater in the digestion tank introduced through the circulating wastewater inflow is mixed with the raw wastewater from the circulation tank through the distributor, And is introduced into the lower side of the housing.

And the waste water in the circulation tank is discharged to a distributor by a pump.

The remaining fine sludge separated from the gas separation tank is introduced into the regeneration tank through a discharge pipe.

In addition, an effluent wastewater discharging wastewater from which organic matter has been removed is further provided inside the digester.

According to the present invention, the gas generated as the anaerobic microorganisms in the inner lower part of the digestion tank decompose and proliferate, is not elevated by the granular anaerobic sludge layer, is accumulated in the lower part of the digestion tank to form a gas layer, In order to prevent the phenomenon of loss of the anaerobic microorganisms, it is necessary to increase the flow rate of the inflow water in the lower side of the digestion tank and to keep the anaerobic microorganism layer in the lower part of the digestion tank in the expanded dispersion state, The amount of the anaerobic micro sludge lost through the outflow pipe is minimized to improve the ability to retain microorganisms in the digestion tank and to increase the decomposition efficiency of the organic matter. .

Particularly, since the efficiency of separation of gas and sludge is greatly improved and the loss of fine sludge (scum) adhered to the generated gas in the existing digestion tank is minimized, the organic matter treatment efficiency is improved, The amount of sludge and the amount of sludge are reduced, thereby significantly reducing the sludge treatment ratio, dehydration drug cost, and aeration tank power ratio.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is a schematic view showing an external circulation type anaerobic digestion apparatus according to the present invention, and FIG. 3 is a view showing a circulating wastewater inlet according to the present invention.

2 and 3, the external circulation-type anaerobic digestion apparatus 100 according to the present invention is an apparatus of a biological wastewater treatment system for performing wastewater treatment by the UASB method, A waste water inflow pipe 130 for causing wastewater in the digester 120 to flow into a lower portion of the digester 120 and a wastewater which is an influent water flowing into the digester 120 through the wastewater inflow pipe 130, And an anaerobic microorganism (granular) sludge (200), which is filled with a certain level of water and is sprayed through the distributor (140) The biogas 210 and the anaerobic microspheres 120 which are raised when the organic matter in the inflow water due to the anaerobic microorganisms in the digestion tank 120 is removed at the upper and lower sides in the digestion tank 120, A first and a second gas separators 150 and 160 for separating gas from the first and second gas separators 200_1 and 200_1, an outflow weir 199 installed at an upper portion of the digester 120 to discharge the purified influent water, The residual micro sludge 200_1 is separated from the collected gas and then re-supplied into the digestion tank 120. At the same time, only the gas is discharged through the gas discharge pipe 184 And a granulated sludge discharge pipe 192 connected to the lower side of the digester 120 and capable of reusing the expanded excess anaerobic granulated sludge 200 in the digester 120, And the anaerobic micro sludge 200_1 is lifted by gas from the lower side of the digester 120 to the first and second gas separators 150 and 160 Moved upwards In order to prevent the incoming water is configured to be raised from the bottom of the digester 120 to the distributor 140, the waste water circulation inlet exchanger 170 for circulation.

At this time, the distributor (140) has a plurality of disposals at regular intervals throughout the digester (120) to prevent the drift through the equal distribution / dispersion of wastewater and to eliminate the influence of drift, And a plurality of spray holes (not shown) for spraying are formed.

The first and second gas separators 150 and 160 collect the biogas 210 rising from the lower side of the digester 120 and the anaerobic micro sludge 200_1 ascending and climbing on the gas, Shaped collecting bodies 151 and 161 that are sequentially moved to the center side of the gas separation tank 180 are provided on the tubes 152 and 162 and connected to the upper side of the gas separation tank 180 through the connected gas separation tube 183, As shown in FIG. At this time, the collectors 151 and 161 are elongated in the longitudinal direction corresponding to the diameter of the digester 120.

The first and second gas separators 150 and 160 are disposed on the lower and upper sides of the inner portion of the digester 120 at regular intervals and are disposed between the first and second gas separators 150 and 160, A circulating wastewater inlet 170 is provided.

The circulating waste water inflow unit 170 has a structure in which a plurality of funnel-shaped inflow ports 172 are formed in the inflow pipe body 171 to suck up waste water moving upward from the lower part of the digester 120, The wastewater containing the anaerobic micro sludge 200_1 which is raised together is circulated to the distributor 140 and is re-introduced.

At this time, the wastewater containing the anaerobic micro sludge 200_1 rising from the inner lower side of the digester 120 through the circulating wastewater inlet 170 is re-introduced into the bottom of the digester 120 through the distributor 140 The upward flow rate of the wastewater rising in the lower portion of the digester 120 is increased.

That is, when the rising velocity of the wastewater inside the digester 120 is increased, the possibility of contact between the anaerobic microorganisms and the influent water increases, and the biogas 210 composed of methane and carbon dioxide generated while decomposing the organic matter is not accumulated, The rising pressure of the gas is lowered and the rise of the anaerobic micro sludge is suppressed as much as possible.

The wastewater in the digester 120 flowing through the circulating wastewater inlet 170 flows from the circulation tank 103 through the distributor 140 in a state of being mixed with wastewater from the regulator 110, Evenly distributed and dispersed.

The wastewater flowing into the circulation tank 103 through the circulating wastewater inlet 170 is mixed with the raw wastewater flowing into the circulation tank 103 from the adjustment tank 110 so that a certain pressure is applied by the pump 101 And is introduced into the digester 120.

Hereinafter, the operation of the external circulation type anaerobic digestion apparatus 100 according to the present invention will be described.

In this case, the anaerobic micro sludge 200_1 and the anaerobic granulated sludge 200 may be understood as a concept equivalent to a microorganism.

First, when raw wastewater containing organic matter flows into the digestion tank 120 through the circulation tank 103 from the adjustment tank 110 storing the raw wastewater, it is uniformly distributed / dispersed in the digestion tank 120 by the distributor 140, .

At this time, the distributor 140 prevents the drift by uniformly distributing the inflow water in the digester 120. On the other hand, the inflow water is filled in the digester 120 at a certain level and the granular anaerobic sludge layer is formed in order from the bottom of the digester 120. When organic wastewater flows into the digester 120 containing a large amount of such anaerobic microorganisms The anaerobic microorganisms decompose it and form new anaerobic micro sludge 200_1.

Meanwhile, the inflow water flowing into the digester 120 is decomposed by the action of the anaerobic microorganisms, and the biogas 210 such as methane gas and carbon dioxide is generated during the decomposition process of the organic matter.

At this time, the biogas 210 rises upward from the lower part of the digester 120 due to the rising characteristic due to the difference in specific gravity. At this time, the biogas 210 is lifted up by the biogas 210 and the newly generated anaerobic micro sludge 200_1 Is attached to the biogas 210 and is lifted.

The biogas 210 and the anaerobic micro sludge 200_1 are sequentially moved from the lower side to the upper side on the inclined surfaces of the collectors 151 and 161 of the first and second gas separators 150 and 160, The biogas 210 generated in the digester 120 is separated and removed by the first gas separator 150. The first gas separator 150 separates the biogas 210 generated in the digester 120 from the first gas separator 150,

At this time, the fine sludge 200_1 is also transferred to the gas separation tank 180 through the gas separation tube 183 by being piled up with the biogas 210 rising.

The biogas 210 transferred to the gas separation tank 180 is recovered and collected through a gas discharge pipe 184 connected to the upper side of the gas separation tank 180 by the ascending characteristic and utilized as an energy source, Emits into the atmosphere.

The anaerobic micro sludge 200_1 transferred to the gas separation tank 180 is separated from the gas separation tank 180 and then introduced into the adjustment tank 120 through the discharge pipe 182. [

The treated water that has passed through the anaerobic sludge layer in the inner lower portion of the digester 120 passes through the first gas separator 150 and then is disposed on the upper side of the first gas separator 150, A certain amount of wastewater is sucked along the inlet port 172 of the circulating wastewater inlet unit 170 located at the lower side of the circulating wastewater inlet unit 170.

In this case, the wastewater sucked through the circulating wastewater inlet 170 includes the anaerobic micro sludge 200 _ 1 that is not filtered by the first gas separator 150.

The wastewater containing the anaerobic micro sludge 200_1 flows into the circulation tank 103 through the circulating wastewater inlet 170 and the raw wastewater flows into the circulation tank 103 from the adjustment tank 110, And is re-introduced into the digestion tank 120 by the pump 101.

The anaerobic micro sludge 200_1 piled up in the biogas 210 is largely removed in the first gas separator 150 and the part of the anaerobic micro sludge 200_1 rising up without being filtered by the first gas separator 150 The anaerobic micro sludge 200_1 is sucked together with the wastewater into the inlet 172 of the circulating wastewater inlet 170 and re-introduced into the digester 120.

When the wastewater that has been treated and raised is circulated through the microorganism layer through the circulating wastewater inlet 170, the rising flow rate of the wastewater flowing from the lower side of the digester 120 to the circulating wastewater inlet 170 is increased, The rising flow rate of the wastewater moving to the upper portion of the circulating wastewater inlet 170 becomes relatively low.

The residual biogas 210 moving to the upper portion of the circulating wastewater inlet 170 is separated by the second gas separator 160.

At this time, the separated biogas 210 is transferred to the gas separation tank 180 and recovered / collected through the gas discharge pipe 184 and used as an energy source or burned and discharged into the atmosphere.

Therefore, since the biogas 210 is almost separated through the first and second gas separators 150, the anaerobic micro sludge 200_1, which is lifted by the rising of the residual gas, is significantly reduced, so that the anaerobic micro sludge 200_1, It is possible to effectively prevent the loss of the battery.

The wastewater that maximizes the removal of organic matter by the microbial action flows into the aeration tank 188 through the outflow pipe 187 via the outflow weir 199 provided on the upper side of the digester 120, So that residual organic matter can be removed. At this time, since the digester 120 has an organic material treatment efficiency of 75 to 90% or more, it has the advantage of greatly improved organic matter treatment efficiency as compared with the existing conventional fire extinguishing apparatus, and the amount of organic matter and the amount of sludge in the effluent, It is possible to reduce the overall operation cost such as treatment cost, dehydration drug cost and aeration tank power cost.

When the anaerobic granulated sludge 200_1 is present in the digester 120 in accordance with the progress of granulation of the anaerobic micro sludge 200_1, the granular sludge is discharged into the granular sludge 200 through the granulated sludge discharging pipe 192 under the digester 120, So that the anaerobic granular sludge 200 in the digester 120 for anaerobic treatment of the organic wastewater can be maintained at a certain level by being discharged / stored in the sludge storage tank 190.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary,

1 is a schematic view showing an anaerobic digestion apparatus according to the present invention.

FIG. 2 is a schematic view showing an anaerobic digestion apparatus according to the present invention. FIG.

3 shows a circulating wastewater inlet of the present invention.

DESCRIPTION OF THE REFERENCE SYMBOLS

100: Anaerobic digestion device 101: Pump

110: adjusting tank 120: digester

130: Wastewater inflow pipe 140: Dispenser

150: first gas separator 160: second gas separator

170: Circulating wastewater inlet 180: Gas separation tank

199: spill ware 200: anaerobic granulated sludge

200_1: residual fine sludge 210: biogas

Claims (4)

A wastewater inflow pipe 130 for allowing wastewater in the adjustment tank 110 to flow into a lower portion of the digestion tank 120 and wastewater flowing into the digestion tank 120 through the wastewater inflow pipe 130, A distributor 140 for uniformly distributing / dispersing the mixed anaerobic sludge 200 and a distributor 140 for distributing / dispersing the mixed anaerobic sludge 200; The anaerobic micro sludge 200_1 and the biogas 210 which are raised during the removal of the organic matter of the wastewater by the anaerobic microorganisms in the digestion tank 120 are installed at a predetermined interval in the digester, The first and second gas separators 150 and 160 collect the gas separated through the first and second gas separators 150 and 160, separate the remaining fine sludge 200_1 from the collected gas, In the gas separation tank 180, an outer loop-shaped anaerobic digestion apparatus comprising a supply of material to be discharged, and at the same time only a gas through the gas discharge pipe 184 into 120, Between the first and second gas separators 150 and 160 is provided a digestion tank 120 for increasing the flow rate of the inflow water inside the digester 120 and preventing the accumulation of gas and increasing the chance of contact between the microorganisms and the influent water, Further comprising a circulating wastewater inlet (170) for circulating the wastewater that is raised at the lower portion of the anaerobic digester to the distributor (140). The method according to claim 1, The circulating wastewater inlet unit 170 includes a plurality of funnel-shaped inlet ports 172 formed in the inlet pipe body 171, The wastewater in the digester 120 flowing through the circulating wastewater inlet 170 is mixed with the waste wastewater of the adjusting tank 110 from the circulation tank 103 and is discharged by the pump 101 through the distributor 140, Is injected to the lower side of the anaerobic digester (120). The method according to claim 1, Wherein the remaining fine sludge 200_1 separated from the gas separation tank 180 is introduced into the adjustment tank 110 through the discharge pipe 182. [ The method according to claim 1, And an effluent (199) for discharging wastewater from which organic matter has been removed is further provided inside the digester (120).

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