KR20140103620A - Method for the treatment of organic wastewater and system thereof - Google Patents

Abstract

The present invention relates to a method for treating an organic waste supernatant and to a system thereof. The method for treating an organic waste supernatant includes: a step for manufacturing a mixture by mixing an organic waste supernatant with an inorganic dispersion; and a step for separating floating matters and treatment water from the mixture. The inorganic dispersion includes peat moss, activated carbon and zeolite.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for treating organic waste,

FIELD OF THE INVENTION The present invention relates to a method and a system for treating organic waste. More particularly, the present invention relates to a method and apparatus for treating an organic waste desorbing solution for treating an organic waste desorbing liquid using an inorganic dispersion liquid containing super fine carbon powder, activated carbon powder, and zeolite powder.

Generally, organic wastes such as food wastes are buried, but in recent years, foreign substances mixed with food wastes have been selected for dehydration, drying and crushing processes, and then recycled as feed, compost or fuel.

The wastewater or infiltration water generated in the process of dewatering food waste is called food waste disposal liquid. It is a high concentration malicious wastewater containing a large amount of organic matter, CO ₂ , hydrogen sulfide and ammonia mixed in a large amount and is difficult to purify, It was the situation that they were discharged and processed through marine dumping while recognizing the seriousness.

However, since the maritime dumping of such wastes is prohibited from 2013 by the London Convention, it is inevitable to dispose of organic wastes that are dependent on marine dumping and land disposal. As a result of prohibition of marine dumping of wastes, Businesses are threatened by business prospects.

Conventional wastewater treatment methods include microbiological methods. The treatment methods using the microorganisms include hydrolysis, acid fermentation and methane fermentation anaerobic treatment using anaerobic microorganisms. However, since the treatment period is long over 20 days and must be kept for a long time, And it is a disadvantage that the operation condition is complicated. As a fundamental problem, there is a disadvantage that the treatment efficiency of the desolvation solution that has passed through the anaerobic process is low. In addition, the microbial treatment method has weak weak points against odor generation.

Where there is a sewage treatment plant in the vicinity, biological treatment by activated sludge treatment is reflected in the combined sewage treatment, but since the treatment by the activated sludge treatment should be lowered to 5,000 ppm or less based on the biological oxygen demand (BOD), it usually corresponds to several hundred thousand ppm The pretreatment of a multistage process must be considered.

On the other hand, the desolvated solids (dake cake) also had a very low water-removal efficiency and a very high moisture content of 80% or more, thus resulting in a cost reduction in the subsequent drying process.

In order to overcome the above-described problems, the present inventors have completed a method and system for effectively treating organic waste desorbate using an inorganic dispersion liquid containing super fine powder, activated carbon powder and zeolite powder.

An object of the present invention is to provide an organic wastes desorbing liquid treatment method and system that are economical, environmentally friendly, and can prevent odor generation.

Another object of the present invention is to provide a method and system for treating an organic waste tribune solution which can be treated in a small-scale facility.

It is still another object of the present invention to provide a method and system for treating organic waste by using a supercritical mixture capable of treating inorganic materials as well as organic materials in waste.

It is still another object of the present invention to provide a method and system for treating organic waste, which can reduce the processing time from 20 days to 5 days to 5 days.

It is still another object of the present invention to provide a method and system for treating organic waste by using suspended solids generated during treatment as a fertilizer.

It is still another object of the present invention to provide a method and apparatus for treating organic waste by using an inorganic dispersion and effectively reducing the production efficiency and the drug cost.

It is still another object of the present invention to provide a method and system for treating organic waste, which greatly reduces the initial facility burden compared with the conventional microorganism method.

It is still another object of the present invention to provide a method and apparatus for treating organic waste, which can eliminate filter clogging due to oil during final filtration.

It is another object of the present invention to provide a method and system for treating organic waste, which is capable of land treatment and is free from the burden of marine dumping.

One aspect of the present invention relates to a method for treating organic waste. The method of treating the organic waste desalination solution comprises: mixing an organic waste desalination solution with an inorganic dispersion to prepare a mixture; And separating the mixture into a suspended material and treated water, wherein the inorganic dispersion includes chief carbon, activated carbon and zeolite.

The inorganic dispersion may be an aqueous dispersion in which chitosan, activated carbon and zeolite are mixed in a weight ratio of 10 to 20: 1.2 to 3: 1.

The charcoal has an average particle size of 0.01 to 1 mm, and the activated carbon and zeolite may have an average particle size of 0.001 to 0.1 mm.

After aging, the mixture can be separated into suspended solids and treated water.

The separated treated water is firstly treated with an anion, ozone, plasma, or magnetic field energy, and then subjected to first-order reaction to form flocculated water; And separating the cake by pressurizing the primary reaction agglomerated flocculated water; Step < / RTI >

Treating the separated treated water with an anion, ozone, plasma, or magnetic field energy, and then subjecting the water to a second reaction to form flocculated water; And separating the secondary reaction agglomerated flocculated water by sedimentation and filtration into a suspended material and final treated water.

The anion, ozone, plasma or magnetic field energy can be treated under air aeration.

The suspended material can be used as fertilizer.

Another aspect of the present invention relates to an organic waste stripper treatment system. The organic waste decantation treatment system may include a mixing tank for mixing the inorganic waste solution with the organic waste decant solution to produce a mixture; A separating tank for separating the mixture of the mixing bath into a suspended material and treated water; A primary decomposition tank for treating the treated water discharged from the separation tank with anion, ozone, plasma, or magnetic field energy; A primary reaction flocculation tank for subjecting the treated water treated in the primary decomposition tank to reactive flocculation; A pressurized float tank for separating the cake by pressurizing the flocculated water discharged from the first reaction flocculation tank; A second decomposition tank for treating the treated water in which the cake is separated in the pressurized floating tank by anion, ozone, plasma, or magnetic field energy; A second reaction flocculation tank for subjecting the treated water treated in the second decomposition tank to reactive flocculation; A sedimentation tank for precipitating flocculated water discharged from the second reaction flocculation tank; And a filtration tank for separating the treated water discharged from the sedimentation tank into a final treated water and a suspended material, wherein the inorganic dispersion includes chief charcoal, activated charcoal and zeolite.

The disassembling vessel may be air-aerated.

The method and system for treating organic wastes according to the present invention are economical and environmentally friendly, can prevent odor generation, can be treated in a small-scale facility, can treat not only organic matters but also inorganic substances in waste, It is possible to shorten the treatment time to 5 to 6 days, to use the suspended solids generated in the treatment as fertilizer, to increase the production efficiency by using the inorganic dispersion, to effectively reduce the drug cost, The filter clogging phenomenon due to oil in the final filtration treatment can be solved, and land treatment can be carried out, so that it is possible to avoid the burden of the marine dumping.

1 schematically illustrates an organic waste decantation treatment system according to one embodiment of the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to be exemplary, self-explanatory, allowing for equivalent explanations of the present invention.

In the present invention, the first order and the second order are for simply specifying the relative order of processing, and do not preclude processing at the previous and subsequent steps.

One aspect of the present invention relates to a method for treating organic wastes desorbed from a pyrolytic mixture.

In one embodiment, the treatment method comprises: mixing an organic waste desalination solution with an inorganic dispersion to produce a mixture; And separating the mixture into suspended solids and treated water.

The organic wastes desorbed in the present invention may include not only the desorbed liquid discharged from the food wastes but also livestock wastewater and manure.

The inorganic dispersion includes chitosan, activated carbon and zeolite. In an embodiment, the inorganic dispersion may be an aqueous dispersion in which chitosan, activated carbon and zeolite are mixed in a weight ratio of 10 to 20: 1.2 to 3: 1. In the above range, there is excellent effect of adsorbing, coagulating and removing dispersed suspended solid particles and metal particles contained in the organic waste desorbing solution, and has excellent purification rate. More preferably, the weight ratio of chitosan, activated carbon and zeolite is chitosan, activated carbon and zeolite = 15 to 18: 1.5 to 2.3: 1.

The above-mentioned coal (peat moss) has a unique fiber binding structure and is excellent in absorbing and retaining moisture of the organic waste desorbing solution. The charcoal which can be used in the inorganic dispersion of the present invention can be used by pulverizing the coarse carbon particles having an average particle size of 0.01 to 1 mm. The dispersibility in the above range is excellent.

The inorganic dispersion includes humic acid generated from the chrysene. The humic acid contained in the chrysotile can effectively remove the heavy metal component and odor of the organic waste decant.

The activated carbon used in the present invention may be any conventional one. For example, lignite, peat, bituminous coal, coconut shell, oak and bamboo activated carbon can be used. These may be used alone or in combination of two or more. The activated carbon which can be used in the inorganic dispersion of the present invention may have an average particle diameter of 0.001 to 0.1 mm. The effect of adsorbing suspended solid particles and metal particles is excellent and the nitrogen component contained in the organic waste desorbing solution is reduced by the ion exchange reaction to improve the treatment efficiency of the organic waste desorbing solution .

The zeolite may be included for adsorption of various kinds of particulate matter contained in the organic waste desorbing liquid. The activated carbon which can be used in the inorganic dispersion of the present invention may have an average particle diameter of 0.001 to 0.1 mm. In the above range, the effect of removing substances causing odor such as ammonia and hydrogen sulfide is excellent, and the effect of adsorbing various contaminants is also excellent.

The inorganic dispersion is prepared by uniformly mixing the chalcogen, activated carbon and zeolite at a weight ratio of 10 to 20: 1.2 to 3: 1 to prepare an inorganic powder mixture, and then mixing the inorganic powder mixture with water to prepare an inorganic dispersion . In this case, the mixing ratio of the inorganic powder mixture and water is 70 to 90% by weight of water and 10 to 30% by weight of the inorganic powder mixture. It has excellent dispersibility in the above range, and can efficiently and quickly remove suspended matters and metal particles.

The mixing ratio of the organic waste decant and the inorganic dispersion may be 15 to 30: 1 by weight. In this range, the organic waste decant can be purified as quickly as possible and is advantageous in terms of cost.

The organic waste decant liquid and the inorganic dispersion may be mixed in a mixing tank. The mixing tank may be equipped with a conventional stirring device to make the mixing uniform.

The mixture in which the organic waste decant liquid and the inorganic dispersion are mixed can be separated into a suspended material and treatment water in a separation tank. In an embodiment, the mixture of the organic waste decant and the inorganic dispersion may be aged and separated into a suspended material and treated water. The aging process can be performed for 12 hours or more, preferably 12 to 24 hours. When aging in the above range, suspended solids and metal particles contained in the organic waste desorbing liquid can be efficiently removed and suspended substances can be easily separated.

The separated suspended material can be used as fertilizer. The suspended material increases the porosity of the soil structure when used as a fertilizer and increases the moisture permeability and retention function, thereby improving the soil to be beneficial to the growth of crops. The soil microorganism is activated by increasing the soil organic matter content, It stabilizes the nitrogen state and mitigates heavy metal toxicity, making the soil fertile.

In one embodiment, the treated water discharged from the separation tank can be decomposed after primary treatment with anion, ozone, plasma or magnetic field energy. The decomposition can be carried out in a primary decomposition tank having means for adding anion, ozone, plasma or magnetic field energy. The primary decomposition tank may have a device capable of aerating the air and may be treated under air aeration when treated with anion, ozone, plasma or magnetic field energy. The disassembly tank is made of an entire steel plate and generates magnetic field energy through the alternating magnet. Further, the decomposition tank generates negative ions by a discharge method. That is, a voltage is generated between a pole and a pole using a discharge pin to decompose oxygen in the air, and ions such as anion, cation, and plasma are generated.

Therefore, contaminants contained in raw water can be generated by generating magnetic field energy such as longwave and shortwave by using an alternating magnet and a permanent magnet, and decomposing pollutants into an unstable state through anion, cation oxygen aeration and the like. The pollutants thus decomposed are again made into a material which can be bonded through energy, so that reactions such as aggregation can be performed well. In addition, since most odorous components are cationic components, the deodorizing effect is maximized due to anion and oxygen aeration, and sterilization and discoloration are caused by ozone treatment.

Particularly, the activated carbon and the zeolite contained in the inorganic dispersion liquid can be further activated in the decomposition tank to maximize the decomposition action.

The treated water subjected to the decomposition process in the first decomposition tank undergoes a reactive agglomeration process in the first reaction aggregation tank. The primary reaction may be carried out by adding an aggregating agent to the treated water. As the coagulant, a polymer flocculant may be used. As the polymer flocculant, at least one of polyaluminum chloride (PAC), aluminum polysulfate (PASS), polyhydroxy aluminum chloride (PACS), and polyamines may be used. When the flocculant is used, flocculation water can be formed efficiently and quickly. In an embodiment, the coagulant may be used in an amount of 0.01 to 3 parts by weight based on 100 parts by weight of the treated water. In the above range, it is advantageous from the viewpoint of cost and the coagulation effect of the pollutant can be excellent.

The flocculated water discharged from the first reaction coagulation tank is separated into a solid cake and a liquid-phase treated water via a pressurized floating tank. The cake may be separated and used as a fertilizer through conventional dehydration processes or discarded.

The treated water separated from the cake in the pressurized floating tank may be decomposed after secondary treatment with anion, ozone, plasma or magnetic field energy. The decomposition can be carried out in a secondary decomposition tank having means for adding anion, ozone, plasma or magnetic field energy. The secondary decomposition tank may have a device capable of aerating the air and may be treated under air aeration when treated with anion, ozone, plasma or magnetic field energy. The treated water having undergone the decomposition process is subjected to a reactive agglomeration process in a second reaction coagulation bath. In another embodiment, the secondary and tertiary reaction coagulation baths are not separately provided, but may be recovered in the primary decomposition bath to perform secondary decomposition and reacted in the primary reaction coagulation bath. The second decomposition tank and the second reaction coagulation tank may be the same conditions as the first decomposition tank and the first reaction coagulation tank.

The flocculated water discharged from the second reaction flocculation tank is separated into a solid containing treated water and a suspended material through precipitation in a settling tank. The treated water discharged from the settling tank is filtered in a filtration tank and separated into a final treated water and a suspended material.

The final treated water formed as described above may be sent to the sewage treatment plant and finally discharged to the water system after the subsequent treatment. The treated water after the above-mentioned steps can have treated water quality of BOD 150 mg / L, COD 40 mg / L, SS 10 mg / L and T-N (total nitrogen) 20 mg / L or less.

Another aspect of the present invention relates to a treatment system for treating the organic waste desorbate.

Figure 1 illustrates an organic waste desalination treatment system in accordance with one embodiment of the present invention. Referring to FIG. 1, the organic waste decantation treatment system includes a mixing tank for mixing an inorganic waste treatment solution with an inorganic treating agent to produce a mixture; A separating tank for separating the mixture of the mixing bath into a suspended material and treated water; A primary decomposition tank for treating the treated water discharged from the separation tank with anion, ozone, plasma, or magnetic field energy; A primary reaction flocculation tank for subjecting the treated water treated in the primary decomposition tank to reactive flocculation; A pressurized float tank for separating the cake by pressurizing the flocculated water discharged from the first reaction flocculation tank; A second decomposition tank for treating the treated water in which the cake is separated in the pressurized floating tank by anion, ozone, plasma, or magnetic field energy; A second reaction flocculation tank for subjecting the treated water treated in the second decomposition tank to reactive flocculation; A sedimentation tank for precipitating flocculated water discharged from the second reaction flocculation tank; And a filtration tank for separating the treated water discharged from the settling tank into the final treated water and a suspended substance by filtration, wherein the inorganic treatment agent includes chitosan, activated carbon and zeolite.

In one embodiment, the decomposition vessel may be air-aerated.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to preferred embodiments of the present invention. However, the following examples are provided to aid understanding of the present invention, and the scope of the present invention is not limited to the following examples. The contents not described here are sufficiently technically inferior to those skilled in the art, and a description thereof will be omitted.

Example  And Comparative Example

An inorganic powder mixture comprising chitosan having an average particle size of 0.01 mm, activated carbon having an average particle size of 0.05 mm and zeolite having an average particle size of 0.05 mm in a weight ratio of 17: 2: 1 was prepared, Water at a weight ratio of 2: 8 to prepare an inorganic dispersion. In the mixing tank, the organic waste decant liquid and the inorganic dispersion were mixed in a weight ratio of 19: 1 to prepare a mixture.

The mixture was then transferred to a separator and aged for 12 hours and then separated into suspended solids and treated water. The suspended material was used as a fertilizer after drying.

The treated water is transferred to a primary decomposition tank and supplied with anions, air-augmented and subjected to primary decomposition. The treated water treated in the primary decomposition tank is transferred to a primary reaction flocculation tank, and 0.01 wt. And the first reaction was agglomerated to prepare coagulated water.

The first-order reaction-agglomerated flocculated water was transferred to a pressurized floating tank and pressurized to remove the solid cake. The treated water separated from the cake is transferred to a secondary decomposition tank and secondary decomposition is performed by air aeration while supplying anion, and the treated water treated in the secondary decomposition tank is transferred to a secondary reaction flocculation tank to produce poly And 0.01 part by weight of aluminum chloride were added thereto to carry out secondary reaction agglomeration to prepare flocculated water.

The second-order agglomerated flocculated water was precipitated and filtered using an oak activated carbon filter to prepare treated water (Example).

The organic waste disposal solution (comparative example) and the final treated water (example) were analyzed based on the test items of the test items as shown in Table 1 below.

Test Items Comparative Example Example pH 5.42 8.83 COD (mg / L) 75000 36.5 BOD (mg / L) 390120 118.8 SS (suspended solids, mg / L) 152413.3 0.3 N-H (mg / L) 10.8 0.4 N-H (mg / L) 86.3 1.7 ABS (mg / L) 7.163 0.178 T-N (total nitrogen (N), mg / L) 2857.200 11.858 T-P (total phosphorus (P), mg / L) 509.760 0.072 Pb (mg / L) - - Cu (mg / L) 2.753 - Cr (mg / L) 0.029 - Cr ^{6 +} (mg / L) - - Cd (mg / L) - - Hg (mg / L) - - As (mg / L) - - CN (mg / L) 0.244 - TS (total solid amount,%) 7.84 0.02

Referring to Table 1, it can be confirmed that the present invention can treat the organic waste desorbing solution in the short term, and the purification efficacy is excellent.

Claims (10)

Mixing an inorganic dispersion in an organic waste desalination solution to prepare a mixture; And
Separating the mixture into suspended solids and treated water,
Wherein the inorganic dispersion liquid comprises chief charcoal, activated charcoal, and zeolite.
The method according to claim 1, wherein the inorganic dispersion is an aqueous dispersion in which chitosan, activated carbon and zeolite are mixed in a weight ratio of 10: 20: 1.2 to 3: 1.
The method according to claim 2, wherein the supercritical carbon has an average particle diameter of 0.01 to 1 mm, and the activated carbon and zeolite have an average particle diameter of 0.001 to 0.1 mm.
The method of claim 1, wherein the mixture is aged and then separated into suspended solids and treated water.
The method according to claim 1, wherein the separated treated water is first treated with an anion, ozone, plasma, or magnetic field energy, and then subjected to first reaction and aggregation to form flocculated water; And
Separating the cake by pressurizing the primary reaction agglomerated flocculated water;
≪ / RTI > further comprising the step of removing organic waste.
The method according to claim 5, wherein the treated water separated from the cake is secondarily treated with an anion, ozone, plasma, or magnetic field energy, and then subjected to second reaction and aggregation to form flocculated water; And
Separating said secondary reaction agglomerated flocculated water by precipitation and filtration into suspended material and final treated water;
≪ / RTI > further comprising the step of removing organic waste.
The method according to any one of claims 5 to 6, wherein the treating with the anion, ozone, plasma or magnetic field energy is carried out under air aeration.
The method according to any one of claims 1 to 4, wherein the suspended material is used as fertilizer.
A mixing tank for mixing the organic waste solution with an inorganic dispersion to prepare a mixture;
A separating tank for separating the mixture of the mixing bath into a suspended material and treated water;
A primary decomposition tank for treating the treated water discharged from the separation tank with anion, ozone, plasma, or magnetic field energy;
A primary reaction flocculation tank for subjecting the treated water treated in the primary decomposition tank to reactive flocculation;
A pressurized float tank for separating the cake by pressurizing the flocculated water discharged from the first reaction flocculation tank;
A second decomposition tank for treating the treated water in which the cake is separated in the pressurized floating tank by anion, ozone, plasma, or magnetic field energy;
A second reaction flocculation tank for subjecting the treated water treated in the second decomposition tank to reactive flocculation;
A sedimentation tank for precipitating flocculated water discharged from the second reaction flocculation tank; And
A filtration tank for separating the treated water discharged from the settling tank into a final treated water and a suspended substance by filtration;
Wherein the inorganic dispersion liquid comprises chief carbon, activated carbon, and zeolite.
10. The system of claim 9, wherein the decomposition vessel is air-aerated.

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