KR100851947B1 - Stabilization treatment device and method of sewage and water purification sludge - Google Patents

Abstract

The present invention relates to a stabilization treatment apparatus and a process for sewage and water purification sludge, comprising: a storage hopper; A stabilizing mixer for mixing the waste sludge supplied from the storage hopper; A dry fermenter for drying and fermenting the waste sludge discharged from the stabilized mixer; A high speed fermenter for fast fermenting the waste sludge dried in the dry fermenter with breathable bacteria; A stabilizing solidifier for stabilizing the waste sludge fermented in the high speed fermenter; Sewage and purified water sludge stabilization treatment apparatus comprising; and a storage step in which waste sludge is added and stored; Stabilization step (S20) is mixed in the state in which the fermentation agent and stabilizer is added to the waste sludge; Dry fermentation step (S30) is stabilized waste sludge is supplied to the dry fermentation and dried and fermented; A high speed fermentation step (S50) in which dry fermented waste sludge is supplied to a high speed fermenter so that high speed fermentation is performed by breathable bacteria; Stabilization and solidification step (S70) for performing a stabilization process with a stabilizer added to the high-speed fermented waste sludge; And an export step (S80) in which the fertilizer and the cover material which are stabilized and solidified and finally calculated are transported to the export hopper; to provide a method for stabilizing sewage and purified water sludge.

There is an effect of solidifying and covering the sewage and purified sludge through an optimal fermentation process by the stabilization treatment device and method of sewage and purified sludge according to the present invention.

Description

A sewage and clean water sludge manage equipment and method the same}

The present invention relates to a stabilization treatment apparatus and a method of sewage and water purification sludge, and more particularly, a stabilization treatment apparatus and a method for stabilization of sewage and water purification sludge improved efficiently by stabilizing the sludge through the pre-treatment process of high speed fermentation It is about.

Economic development and improved living have resulted in pollution of drinking water sources, and thus, the facilities of sewage and water treatment plants and sewage treatment plants have been inevitably increased. Therefore, the amount of sludge, which is a secondary by-product generated in sewage and water treatment, is also gradually increased, and its treatment is a big environmental problem.

At present, the treatment of sewage and water purification sludge depends on methods such as ocean dumping and landfilling. However, marine dumping has many problems in the process of managing, storing, and transporting sludge to the ocean, and dumping of waste at sea has been banned worldwide since 1996 by the London Convention.

Other treatment methods for sewage and water sludge include simple incineration after drying, but high incineration costs and treatment of ash generated after incineration are problematic. This ash is usually mixed with solidifying agents such as Portland cement, but it is not suitable for the situation where landfill is insufficient as domestic situation because the volume of waste generated at that time becomes large.

Therefore, it is well known that the disposal of waste is now a serious social problem that threatens the livelihood and the global environment. In particular, water purification sludge generated during the purification of drinking water sources that is closely related to our lives among the wastes generated in our lives Sewage sludge generated after sewage treatment and sewage treatment has been continuously increasing, causing serious environmental pollution problems.

 Many methods of treating such wastes have recently been proposed, and among them, a method of biologically fermenting and composting is in the spotlight.

However, in the waste treatment method according to the prior art, the processing system of storage-> primary mixing-> fermentation-> secondary mixing, solidification-> stabilization-> export process has too much additive input and the additive cost is increased. In the fermentation stage, the amount of waste conveyed is so large that the capacities of the fermentation and stabilization tanks become large, and thus the facilities occupy a lot of space and are inefficient. In particular, there are a lot of additional facilities, the complicated transfer process and high failure rate is a problem that is difficult to follow-up management.

Another waste treatment method is storage-> preheating drying-> electric furnace-> dryer-> house drying-> follow-up fermentation-> fertilizer input-> take out process. As the fermentation process takes much time, the machine capacity increases, fuel cost rises, the performance of the drying line equipment decreases, and the cost of fertilizer is added. There is a problem that it is difficult to follow-up management.

The object of the present invention devised in view of such a problem is to improve the fermentation efficiency by natural drying and breathable fermentation to reduce fuel costs and shorten the fermentation period.

Another object of the present invention is to maximize the fermentation efficiency by performing a pretreatment process of the stabilization process and dry fermentation process before the high-speed fermentation.

Still another object of the present invention is to simplify the installation process so that the operation of the facility is easy and the after-care is simple.

Another object of the present invention is to improve the performance of the machine to obtain high efficiency even with a small amount of additives.

Another object of the present invention is to recycle the odor waste gas generated in the facility to reduce fuel costs while minimizing the generation of odor.

Sewage and water purification sludge treatment apparatus according to the present invention comprises a storage hopper for storing waste sludge; A stabilizing mixer for mixing the waste sludge supplied from the storage hopper; A dry fermenter for drying and fermenting the waste sludge discharged from the stabilized mixer; A high speed fermenter for fermenting the waste sludge dried in the dry fermenter with breathable bacteria; A stabilizing solidifier for stabilizing the waste sludge fermented in the high speed fermenter; And a hopper for carrying out the fertilizer and the cover material finally calculated in the stabilization solidifier.

The stabilizing mixer is preferably connected to the fermentation agent supply device and the stabilizer supply device.

The dry fermentor is preferably a heat medium boiler is connected to the waste heat generated from the heat medium boiler is supplied to the dry fermentation.

The heat medium boiler is connected to the deodorizer is preferably the waste gas generated from the deodorizer is supplied to the heat medium boiler.

The stabilizing solidifier is preferably connected to the stabilizer supply.

Sewage and purified water sludge stabilization method according to the present invention is a storage step (S10) in which the waste sludge is stored in the storage hopper; Stabilization step (S20) is the waste sludge of the storage hopper is supplied to the stabilization mixer, mixed with the fermentation agent and the stabilizer is added in the stabilization mixer; A dry fermentation step (S30) in which the waste sludge stabilized by the stabilizing mixer is supplied to a dry fermenter and dried and fermented; A high speed fermentation step (S50) in which the waste sludge dried and discharged from the dry fermenter is fed to a high speed fermenter to perform high speed fermentation by breathable bacteria; Stabilization and solidification step (S70) for performing the stabilization process in a state in which the waste sludge discharged from the high speed fermenter is supplied to the stabilizing solidifier is added to the stabilizer; And a step (S80) of stabilizing and solidifying in the stabilization solidifier, and finally, the fertilizer and the cover material, which are finally calculated, are transferred to the export hopper.

In addition, it may further include a fermentation sludge circulation step (S40) for conveying the waste sludge discharged through the dry fermentation step (S30) to the inlet side of the dry fermenter of the dry fermentation step.

In addition, the fast fermentation sludge conveying step (S60) for conveying the waste sludge discharged through the high speed fermentation step (S50) to the stabilizing mixer of the stabilization step (S20) may be further included.

The present invention can reduce the fuel cost by natural drying, improve the fermentation efficiency by breathable fermentation has the effect of shortening the fermentation period of the sludge.

According to the present invention, the dry fermentation process is performed before the high speed fermentation process to form an optimal state for high speed fermentation, and the stabilization process is performed before the dry fermentation process to maximize the efficiency of the dry fermentation process.

In addition, the present invention has the effect of simplifying the installation process, the operation of the facility is easy and the after-care is simple.

The present invention has the effect of improving the mechanical performance of the blender and fermenter used in each process to obtain a high efficiency even using a small amount of additives.

In addition, the present invention has the effect of reducing fuel costs while minimizing the generation of odor by recycling the odor waste gas generated in the facility.

Thus, the final by-product treated by the present invention has the effect of exhibiting the highest quality as a fertilizer and cover material.

One specific embodiment of the present invention as described above will be described in more detail based on the accompanying drawings.

1 is a configuration diagram of a stabilization treatment apparatus for sewage and purified water sludge according to the present invention, and FIG. 2 is a flowchart of a stabilization treatment method for sewage and purified water sludge according to the present invention.

Referring to Figure 1, the stabilization treatment apparatus 100 for sewage and purified water sludge according to the present invention is a storage hopper 110 for storing waste sludge (hereinafter referred to as "waste sludge") that is sewage and purified water sludge; Stabilized mixer 120 for mixing the waste sludge supplied from the storage hopper 110, a dry fermenter 130 to dry and ferment the waste sludge discharged from the stabilized mixer 120, and the dry fermenter 130 Fast fermenter 140 to ferment the waste sludge dried by the breathable bacteria, stabilization solidifier 150 for stabilizing the waste sludge fermented in the high speed fermenter 140, and fermentation in the stabilization solidifier 150 It characterized in that it comprises a transport hopper 160, 170 for carrying out the fertilizer and covering material calculated.

The stabilizing mixer 120 is connected to the fermentation agent supply unit 210 and the stabilizer supply unit 220. The fermentation agent supply device 210 supplies an active stall (zeolite) as a fermentation agent. Stabilizer supply unit 220 is to supply a stabilizer (quick lime) as a stabilizer.

The thermal fermenter 130 is connected to the heat medium boiler 230. The deodorizer 240 is connected to the heat medium boiler 230.

The deodorizer 240 is a heat medium boiler 230 after deodorizing the odor generated in the input room, underground machinery room, underground machinery, ground machinery, ground machinery room and the above-described mixers and fermenters of various equipment of the system equipment ) Will be supplied. The waste gas thus supplied is reused as a heat source in the heat medium boiler 230.

A hot air fan 235 is connected between the heat medium boiler 230 and the deodorizer 240 to heat-exchange the heat of the waste gas generated in the deodorizer 240 with warm air to supply the heat medium boiler 230.

The stabilization solidifier 150 is a stabilizer supply unit 250 is connected. Stabilizer is used as the stabilizer of the stabilizer supply device 250.

The stabilizing mixer 120 and the dry fermenter 130 is connected by a stabilized sludge conveying conveyor (310).

In addition, the dry fermenter 130, the fermentation sludge circulation conveyor 320 is connected to the outlet side. The sludge is conveyed to the inlet side of the dry fermenter 130 by the fermentation sludge circulation conveyor 320.

The dry fermenter 130 and the high speed fermenter 140 is connected to the fermentation sludge conveying conveyor 330 is transported sludge.

The high speed fermenter 140 is a high speed fermentation sludge conveying conveyor 340 is connected to the outlet side is configured to be capable of conveying fermentation sludge to the stabilizing mixer 120.

The stabilization solidifier 150 is connected by the by-product conveying conveyor 350 so that the fertilizer and cover material, which is the by-product finally produced to the export hopper 160, 170 side.

The method for stabilizing sewage and purified water sludge according to the present invention configured as described above will be described with reference to FIG.

(1) storage step (S10)

The storage hopper 110 is loaded with waste sludge which is sewage and purified sludge. At this time, the waste to be injected is stored in the storage hopper 110, the waste containing the average state of 82% moisture, and the stored waste is sequentially stored in the storage hopper 110.

As such, the waste sludge stored in the storage hopper 110 is sequentially supplied from the storage hopper 110 to the stabilizing mixer 120 by a hydraulic conveying method.

(2) stabilization step (S20)

Inside the stabilizing mixer 120 to which waste sludge was supplied from the storage hopper 110, zeolite, which is a kind of fermenting agent, is supplied by the fermenting agent supply device 210, and inorganic as a stabilizer by the stabilizer supplying device 220. Quicklime is supplied as an additive.

When the fermentation agent zeolite and the stabilizing agent quicklime are input as described above, the interior of the stabilizing mixer 120, which is a pretreatment process, is instantaneously raised to a temperature of 70 to 90 ° C. Due to this exotherm, harmful bacteria in the waste sludge are killed and molecules of the waste sludge are killed. And denominator are encapsulated and coated. By this process, anaerobic fermentation bacteria are suppressed and stabilized.

Zeolite, a fermentation bacterium used in this stabilization step, is added about 13% to improve breathability. In addition, 2% of quicklime is added to the sludge itself, thereby killing anaerobes.

Waste sludge stabilized by the stabilization mixer 120 will reduce the amount of water by 54%. This waste sludge is supplied to the dry fermenter 130 by the stabilized sludge transport conveyor (310).

(3) dry fermentation step (S30)

The dry fermenter 130 is connected to the heat medium boiler 230 and performs drying and fermentation while being in contact with the breathable fermented sludge by waste heat at about 260 ° C. supplied from the heat medium boiler 230. The internal temperature of the dry fermenter 130 is maintained at 60 ℃ ~ 70 ℃. The internal temperature of the dry fermenter 130 is an optimal temperature for performing the breathable fermentation.

Therefore, the waste sludge passing through the dry fermenter 130 is dropped to a state of 45% moisture content.

On the other hand, the heat medium boiler 230 is connected to the deodorizer 240 is contaminated gas generated in the entire process of the facility is deodorized by the deodorizer 240, the deodorized waste gas is passed through the hot air fan (235) It is supplied to the boiler 230 and used as fuel.

(4) fermentation sludge circulation step (S40)

When the water content of the waste sludge discharged to the outlet side of the dry fermenter 130 exceeds 45%, the waste sludge is returned to the inlet side of the dry fermenter 130 through the fermentation sludge circulation conveyor 320 and circulated.

Therefore, the waste sludge passes through the dry fermenter 130 again and performs a dry fermentation effect until it reaches an appropriate moisture content while being naturally dried. As such, the waste sludge passing through the dry fermenter 130 can be dried and fermented at the same time to reliably control the water, thereby significantly improving the performance of the next process, the high speed fermentation process.

(5) high speed fermentation step (S50)

Waste sludge after the pretreatment process for the high speed fermentation in the dry fermentation step is supplied to the high speed fermenter 140 is a high-speed breathable fermentation by the breeding of breathable microorganisms. Breathable bacteria caused by breathable microorganisms are bacteria that grow and reproduce in the presence of oxygen, and oxidize and decompose nutrients using oxygen in the air.

The high speed fermenter 150 proceeds with the fermentation while retaining the waste sludge for about three days. At this time, the water content is reduced by up to 34%.

(6) high speed fermentation sludge conveying step (S60)

When the water content of the sludge discharged from the high speed fermenter 140 is larger than the set amount of water of 34%, the waste sludge is returned to the stabilizing mixer 120 through the high speed fermentation sludge conveying conveyor 340.

The returned waste sludge is sequentially passed through the stabilizing mixer 120 and the dry fermenter 130, and is then supplied back to the high speed fermenter 140 to undergo a high speed fermentation process.

The sludge finally discharged from the high speed fermenter 140 is supplied to the stabilization solidifier 150.

(7) stabilization and solidification step (S70)

Stabilization solidifier 150 is supplied by the stabilizer supply unit 250 is supplied limestone, which is a kind of stabilizer about 3%. In the stabilization solidifier 150, it is possible to efficiently control the amount of water so that the stabilization step and the solidification step can be carried out in one facility.

Therefore, the sludge finally stabilized and solidified in the stabilization solidifier 150 is transported to the export hoppers 160 and 170 through the by-product transfer conveyor 350.

(8) Export Step (S80)

The water content of the sludge conveyed to the export hoppers 160 and 170 is 32% and is carried out as a fertilizer and cover material through the export chamber.

1 is a block diagram of a stabilization treatment apparatus for sewage and water purification sludge according to the present invention.

2 is a flow chart of the stabilization treatment method of sewage and water purification sludge according to the present invention.

<Description of Symbols for Main Parts of Drawings>

100; Device for stabilization of sewage and water purification sludge

110; Storage hopper 120; Stabilization blender

130; Dry fermenter 140; High speed fermenter 150; Stabilized solidifier 160,170; Unloading hopper 210; Fermenter feeder 220; Stabilizer supply unit 230; Thermal boiler 235; A hot air fan

240; Deodorizer 250; Stabilizer Feeder

310; Stabilized sludge conveying conveyor 320; Fermentation Sludge Circulation Conveyor

330; Fermented Sludge Transfer Conveyor 340; High Speed Fermentation Sludge Conveyor

350; By-product Transfer Conveyor

Claims (8)

A storage hopper for storing waste sludge by sewage and purified water; A stabilizing mixer for mixing the waste sludge supplied from the storage hopper; A dry fermenter for drying and fermenting the waste sludge discharged from the stabilized mixer; A high speed fermenter for fermenting the waste sludge dried in the dry fermenter with breathable bacteria; A stabilizing solidifier for stabilizing the waste sludge fermented in the high speed fermenter; Sewage and purified water sludge stabilization treatment apparatus comprising a; a hopper for carrying out the fertilizer and the cover material finally fermented in the stabilization solidifier. The method of claim 1, The stabilizing mixer is a stabilization treatment device for sewage and water purification sludge, characterized in that the fermentation agent supply and the stabilizer supply unit is connected. The method of claim 1, The dry fermenter is connected to a heat medium boiler, the waste heat generated from the heat medium boiler is supplied to the dry fermentation stabilization treatment apparatus for sewage and purified water sludge. The method of claim 3, wherein The heat medium boiler is connected to the deodorizer, the waste gas generated in the deodorizer is supplied to the heat medium boiler stabilization treatment apparatus for sewage and purified water sludge. The method of claim 1, The stabilization solidifier is a stabilization treatment apparatus for sewage and water purification sludge, characterized in that the stabilizer supply unit is connected. A storage step (S10) of storing and storing waste sludge by sewage and purified water in a storage hopper; Stabilization step (S20) is the waste sludge stored in the storage hopper is supplied to the stabilization mixer, mixed with the fermentation agent and the stabilizer added in the stabilization mixer; A dry fermentation step (S30) in which the waste sludge stabilized by the stabilizing mixer is supplied to a dry fermenter and dried and fermented; A high speed fermentation step (S50) in which the waste sludge dried and discharged from the dry fermenter is supplied to a high speed fermenter to perform high speed fermentation by breathable bacteria; Stabilization and solidification step (S70) for performing the stabilization process in a state in which the waste sludge discharged from the high speed fermenter is supplied to the stabilizing solidifier is added to the stabilizer; The stabilization treatment method for sewage and water purification sludge comprising a; step (S80) that the fertilizer and cover material in the stabilized and solidified state is finally transported to the export hopper. The method of claim 6, Further comprising a fermentation sludge circulation step (S40) for returning the waste sludge discharged through the dry fermentation step (S30) to the inlet side of the dry fermenter of the dry fermentation step (S40) . The method of claim 6, The process for stabilizing sewage and water purification sludge further comprising a high-speed fermentation sludge conveying step (S60) for conveying the waste sludge discharged through the high-speed fermentation step (S50) to the stabilizing mixer of the stabilization step (S20). Method.

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