KR101345402B1 - A wastewater purification treatment additive composite and It's manufacturing method - Google Patents

Abstract

The present invention relates to a wastewater purification treatment additive composition and a method for producing the same, which efficiently treat wastewater, such as various livestock wastewater, industrial wastewater, sewage, and manure.
The present invention for this purpose, the additive composition for wastewater purification treatment is a viscous material made by mixing 150-200 parts by weight of water with 400-450 parts by weight of barley rice, 20-30 parts by weight of allophane and active corrosion soil in the viscous material (activated humus soil) 200 to 250 parts by weight and ash (ash) characterized in that made by mixing.
The present invention configured as described above is treated with various kinds of wastewater with high efficiency when the additive composition containing active corrosive soil and ash and pumice and barley grass are treated in high efficiency. The image can be planted.

Description

A wastewater purification treatment additive composite and It's manufacturing method

The present invention relates to an additive composition for treating wastewater, which treats wastewater such as various livestock wastewater, industrial wastewater, sewage, and manure with high efficiency, and more specifically, an active corrosion soil and ash, and an additive based on pumice and barley grass. When the composition is put into the wastewater, various wastewater and wastewater are treated with high efficiency, thereby greatly improving the quality and reliability of the product, thereby allowing consumers to plant a good image.

As it is well known, livestock manure has both properties of resources and pollutants, so it can be used as a source of organic matter and nutrients if it is used as a resource, so it is possible to improve soil pollution and promote environmentally-friendly agriculture, but if it is not properly managed, it is a source of pollution. Or it acts as a nonpoint source and acts as a serious water source.

Livestock manure is only 0.6% of the total sewage and wastewater, but the pollutant load accounts for about 25.8% and is emitted at high concentrations. Livestock manure has been acting as a new source of pollution due to composting and avoiding the use of manure. The government (Ministry of Agriculture, Forestry and Fisheries, Ministry of Environment) supports the installation of public treatment facilities for livestock manure (Ministry of Environment) and livestock manure processing facilities for livestock farms and breeders. Ministry of Agriculture, Forestry and Fisheries). The government has strengthened the treatment of livestock manure by enacting and publishing the "Act on the Management and Use of Livestock Manure" in August 2006 as the severity of environmental pollution of livestock manure increases.

Livestock wastewater contains a lot of fertilizers such as nitrogen, phosphorus and potassium. In the past, natural reducing effective utilization using paddy fields and fields was the mainstream. Since it is difficult to secure farmland necessary for use, and soil and groundwater contamination are also concerned about farmland reduction, it is necessary to discharge to public water after proper treatment. At present, the seriousness caused by livestock manure is not only a problem in Korea but it is commonly recognized as a global problem including Europe, Japan and the United States. In the Netherlands, Denmark, and the United Kingdom, the limits for nitrogen and phosphorus dumping on soil and rivers are more regulated. In Korea, the treatment of nitrogen and phosphorus is legally mandatory in livestock wastewater treatment facilities and livestock farms subject to special areas. .

In livestock farms, manure is particularly difficult to manage because it is a liquid substance rather than manure. In particular, the biological treatment of livestock wastewater by manure separation in swine wastewater is difficult to operate and manage the treatment facilities in livestock farms without specialized knowledge in the reality that legal regulations of discharged water quality are strengthened. It prefers sawdust fermentation and evaporation. However, the technology of treating the wastewater in the state of slurry mixed with manure by sawdust fermentation and evaporation method does not have many problems economically and technically due to the high water content of the slurry. Therefore, composting of manure by the manure separation method and biological treatment of urine are desirable.

The government is actively promoting the “Regional Livestock Manure Management Center” project to manage livestock manure discharged from livestock farms, and this system composts the livestock manure discharged from livestock farms through solid-liquid separation through composting. How to sell and the liquid is commercialized through liquefaction and spreading on farmland to promote the effect of fertilizer. When the liquid consumption is low, it suggests the treatment and discharge of the treated water in connection with the livestock wastewater public treatment facility.

Public treatment facilities are installed annually in areas with high water quality preservation needs in connection with the water environment management plan. As of the end of 2009, 68 facilities (11.6 thousand m ³ / day) are in operation throughout the country. As of 2010, 26 facilities have been installed, and 18 are under renovation.

The government since 2007, competitiveness and 2012 small livestock farms under the KORUS FTA, in accordance with the prohibition marine emissions, so expect an increase in livestock manure to be processed on land 100 facilities (11.6 1000 m ³ / day) by 2012 It is planned to expand the installation of public treatment facilities in Korea, and to ensure proper operation through the installation of nitrogen / phosphorus removal facilities, improvement of construction methods, and improvement of operation plans for the problems of lowering operation rate and pollutant removal efficiency. . In order to ensure the proper treatment of livestock manure by activating the distribution and production of fertilizer, such as the establishment of a joint resource management facility and the establishment of a livestock fertilizer distribution system, about 400 billion won was invested by 2012 to raise the manure of medium-sized livestock farmers. About 70% of them are flowed into public and joint treatment facilities, and the liquid waste distribution centers for promoting the use of retirement and liquid waste are expanded from 59 to 140, and the mandatory mandatory standards for securing agricultural land for liquid spraying and adjustment of storage period for liquid fertilizers, etc. The countermeasure is established and promoted.

However, after liquid-liquid separation of livestock manure, liquid or liquid livestock wastes are liquefied and sprayed on farmhouses as fertilizers, because of their efficiency and economical efficiency, they are rarely actually liquefied. Is emerging. In addition, it is true that livestock wastewater is not easily applied to livestock wastewater treatment facilities and public treatment facilities if they are not located in close proximity. As a method for treating only solid-liquid livestock wastewater, the most widely used treatment method is the activated sludge method, but it is difficult to meet the effluent water quality standards that are gradually strengthened due to the low efficiency of nitrogen and phosphorus removal. Therefore, there is an urgent need to develop more efficient and economical treatment technology for livestock wastewater that includes nitrogen and phosphorus removal measures in addition to the current treatment technology for organic matter.

In order to solve the above problems, a conventional patent publication No. 2003-0066099 (Application No. 2002-0006271 (name: environmental waste purification composition)) has been filed. That is, the prior art is to improve the soil, domestic wastewater, livestock wastewater, etc., without secondary pollution by forming a material mainly composed of ocher, to achieve the above object 49wt% to 53wt% 12 wt% to 16 wt% of feldspar of (K, Na, Ca, Ba) (Al, Si) 4O8 component, 15 wt% to 19 wt% of CaCO3, 6 wt% to 10 wt% of Ca (OH) 2, 4 wt% of Ca (NO3) 2 26 wt% to 30 wt% of zeolite, 23 wt% of zeolite of (K, H3O) Al2 (Si, Al) 4O10 (H2O, OH) 2 component, and the first mixture of 2 wt% to 6 wt% CaO 2 wt%-27 wt%, 20 wt%-24 wt% carbon, 23 wt%-27 wt% of ganguerite are formed, and 53 wt%-57 wt% of the first mixture is mixed with 43 wt%-47 wt% of the second mixture. It is characterized in that the cornic powder, the cornic powder 0.5wt% to 2wt%, and 98wt% to 99.5wt% of water are mixed for 2 to 4 hours and then precipitated for 23 to 25 hours. The prior art as described above improves acidified soils to aerobic, purifies domestic wastewater and livestock wastewater, and does not generate secondary pollution due to composition during the improvement and purification process. It is described that there are useful effects such as being applicable to red tide removal and medical use. However, the above-mentioned conventional technology does not have an additive composition mainly composed of activated corrosive soil, ash, and pumice and barley grass, and thus, there is a big problem that various wastewater such as livestock wastewater, industrial wastewater, sewage, and manure cannot be treated with high efficiency. Occurred.

The present invention has been made in order to solve the above problems of the prior art, the first is that the fine particles of barley and water and the fine particles of allophane (activated humus soil) and ash (ash) is provided The second object of the present invention according to the above technical configuration is to treat various wastewater and waste water with high efficiency when the additive composition containing active corrosive soil and ash and pumice and barley grass is added to the wastewater. The purpose is to treat wastewater such as livestock waste, industrial wastewater, sewage, and manure with high efficiency.In particular, the fourth objective is to inject and operate the active corrosive substances produced in mass production into the process and then operate the inflow and outflow water. As a result of analyzing BOD, SS, TN, and TP, the effluent water quality criteria, all items met the enhanced effluent water quality criteria, and the existing active corrosion Removal efficiency of the active corrosion-producing substances in the present invention when viewed in comparison with a measurement result to the quality in the injection process is shown the processing efficiency is similar to the conventional process. Therefore, instead of the active corrosive material imported from Japan, the treatment efficiency of the active corrosive mass produced by using the cheap active corrosive raw material in the present invention shows the same effect as that of the existing expensive active corrosive material. The fifth objective is to develop a method that can efficiently and economically treat livestock wastewater, which is difficult to treat with existing activated sludge method because it contains high concentration of organic substance, nitrogen and phosphorus. In order to contribute to the advancement of livestock wastewater treatment technology, the sixth objective is to contribute to the efficient process completion of livestock manure treatment technology by developing composting of livestock and developing effective biological treatment process of urine by developing efficient livestock wastewater treatment process technology. The seventh objective is to develop high efficiency and low cost livestock wastewater treatment technology. Commercialization provides vitalization of the livestock wastewater treatment industry, and the eighth purpose is to promote the growth of domestic livestock wastewater treatment industry which is not active and systematic because there is no proper treatment method. The 10th objective is to reduce social costs due to the reduction of environmental pollution problems due to proper treatment, and the tenth goal is to improve and expand the treatment facilities for livestock wastes and create jobs by new businesses due to the high efficiency of livestock wastewater treatment technology. The 11th object is to provide an additive composition for wastewater purification treatment and a method for producing the same, which can greatly improve the quality and reliability of the product and thereby give a good image to the consumer.

In order to achieve the above object, the present invention is an additive composition for wastewater purification treatment, a viscous material made by mixing 150-200 parts by weight of water with 400-450 parts by weight of barley rice, and 20-30 parts by weight of allophane in the viscous material. And it provides an additive composition for wastewater purification treatment, characterized in that made by mixing 200 to 250 parts by weight of activated humus soil and 200 to 250 parts by weight of ash (ash).

As described in detail above, the present invention is to provide the barley rice and water of the fine particles and the allophane and activated humus soil and ash (ash) of the fine particles.

The present invention by the technical configuration described above is treated with various kinds of wastewater with high efficiency when the additive composition containing active corrosive soil and ash and pumice and barley grass into the wastewater.

Therefore, the present invention is intended to treat wastewater such as various livestock wastewater, industrial wastewater, sewage, and manure with high efficiency.

In particular, the present invention, after injecting the active corrosive mass produced in the process into the process and operated for analysis of the BOD, SS, TN, TP of the effluent water quality criteria for influent and effluent, all the items are enhanced effluent water quality standards In addition, the treatment efficiency of the active corrosive material produced in the present invention showed similar treatment efficiency as compared with the conventional process when compared with the results measured by injecting the existing active corrosive material into the process. Therefore, instead of the active corrosive material imported from Japan, the treatment efficiency of the active corrosive mass produced by using the cheap active corrosive raw material in the present invention shows the same effect as that of the existing expensive active corrosive material. It was confirmed that replacement is possible.

In addition, the present invention is to advance the livestock wastewater treatment technology by developing a process that can efficiently and economically treat livestock wastewater, which is difficult to treat with the existing activated sludge process because it contains a large amount of high concentration of organic substances, nitrogen, and phosphorus. It is to contribute.

In addition, the present invention is to contribute to the efficient completion of the livestock manure treatment technology by the development of efficient livestock wastewater treatment process technology by the composting of livestock and the development of an effective biological treatment process of urine.

In addition, the present invention provides the promotion of the livestock wastewater treatment industry through the development and commercialization of high efficiency and low cost livestock wastewater treatment technology.

In addition, the present invention is to promote the growth of domestic livestock wastewater treatment industry that is not active and systematic because there is no appropriate treatment method.

In addition, the present invention is to reduce the social cost due to the reduction of environmental pollution problems due to the proper treatment of livestock wastewater.

In addition, the present invention is intended to improve the production and treatment of livestock wastes, and to create jobs by new businesses due to the degree of efficient treatment of livestock wastewater.

The present invention is a very useful invention that can significantly improve the quality and reliability of the product due to the above-described effect so that consumers can plant a good image.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a photograph of the active corrosion soil raw material applied to the present invention.
Figure 2 is an optimum mixing ratio of active corrosive raw materials and barley grass applied in the present invention
Exodus photo.
3 is an optimum mixing ratio of the active corrosive raw materials and viscous materials applied to the present invention
camp.
Figure 4 is a mechanical mixing of the active corrosive raw materials and viscous material applied to the present invention
camp.
Figure 5 is an active corrosion material mechanical production process applied to the present invention.
Figure 6 is a photograph of mechanically produced active corrosive material applied to the present invention.
Figure 7 is a photograph of the active corrosive material cut into a bar shape applied to the present invention.
Figure 8 is a photograph of the active corrosive tied to inject into the process applied in the present invention.
Figure 9 is a process injection photo of the active corrosion material applied to the present invention.
10 is a photograph of the inlet and effluent sampling of the process of the present invention.

The additive composition for wastewater purification treatment applied to the present invention and its manufacturing method are configured as shown in FIGS. 1 to 10.

In the following description of the present invention, 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 provide further explanation of the invention as claimed.

First, the present invention provides an additive composition for wastewater purification treatment containing barley rice and water of fine particles and allophane, activated humus soil, and ash of fine particles.

In particular, the additive composition for wastewater purification treatment applied to the present invention is a viscous material made by mixing 150-200 parts by weight of water with 400-450 parts by weight of barley rice, and 20-30 parts by weight of allophane in the viscous material and active. It is made by mixing 200-250 parts by weight of humus soil and 200-250 parts by weight of ash.

In particular, allophane is applied to the present invention (Allophane) is an amorphous clay mineral mainly composed of silicic acid, aluminum, iron, water and the like, the color is usually white or light blue, but due to impurities, it is multicolored and has a glass gloss.

And the ash (ash) refers to the ashes remaining burned, and includes ash and the like.

And it is preferable that the barley rice applied to the present invention is included 400 to 450 parts by weight, which is less than 400 parts by weight of the viscosity is weak, if more than 450 parts by weight is too much, the barley rice is preferably 400 to 450 parts by weight.

In addition, the water applied in the present invention is preferably contained 150 to 200 parts by weight, which is less than 150 parts by weight becomes a viscous material, if more than 200 parts by weight is too thin to be less viscous force, the water is preferably 150 to 200 parts by weight. .

In addition, it is preferable that 20 to 30 parts by weight of allophane applied to the present invention is included, which is less than 20 parts by weight and does not interact, and if it is 30 parts by weight or more, it is difficult to mix with other materials. (Allophane) is preferably included 20 to 30 parts by weight.

In addition, the activated humus soil (activated humus soil) applied to the present invention is preferably included in the 200 to 250 parts by weight, which is less than 200 parts by weight difficult to make microorganisms, if more than 250 parts by weight of the activated humus soil (activated humus soil) ) Is preferably 200 to 250 parts by weight.

Finally, the ash applied to the present invention is preferably contained in an amount of 200 to 250 parts by weight, which is less than 200 parts by weight of microorganisms, and when it is 250 parts by weight or more, the ash is not easily dried. It is preferable that 200-250 weight part is included.

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.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Referring to the effect of the present invention the wastewater purification treatment additive composition configured as described above and the preparation method thereof are as follows.

First of all, the present invention treats various wastewater with high efficiency when the additive composition mainly composed of activated corrosive soil, ash and pumice and barley grass is added to the wastewater.

To this end, the present invention is subjected to the step of grinding barley rice into fine particles.

Then, the present invention is put water into barley rice pulverized into fine particles and boiled for 30 to 40 minutes to go through the step of making a viscous material.

Subsequently, allophane, activated humus soil, and ash are added to the viscous material and boiled for 5 to 10 minutes to make an additive composition.

Then, the additive composition is cooled and then molded.

Thereafter, the molded product is dried and then cut into a predetermined size to prepare an additive composition for treating the final wastewater purification.

In particular, the present invention is subjected to a step of soaking barley rice in water for 12 to 15 hours in order to crush the barley rice well before the step of grinding the barley rice into fine particles.

In addition, in order to tangled well with Allophane, activated humus soil and ash in the step of making the viscous material, it is preferable to put water in barley rice powder five times and boil it.

In addition, the molding step is preferably extracted through a drawer or an extruder after cooling the additive composition in order to prevent air from entering into the additive composition.

Hereinafter, an embodiment of the present invention will be described.

(Example)

The present invention through each of the above steps is a technology applying the principle that the copper and plant fluids or organic matter introduced into the soil is decomposed and corroded by the soil microorganisms to produce a stable corrosive substance and purified as a mineral in the soil. Conventional activated sludge process is a method for treating livestock wastewater by the anaerobic microorganisms (actinomycetes, bacillus group) in the presence of allophane-like minerals containing a large amount of silicate that is easy to supply and active humus soil that is easy to supply. The use of electric power is reduced compared to biological treatment technology, which makes operating cost cheaper, solves noise problem, and removes nitrogen and phosphorus compounds that are difficult to process.

In particular, Figure 1 is a photograph of the active corrosive raw materials applied to the present invention, in order to prepare the active corrosive material itself in the form of a stick-shaped form of a convenient form to be injected into the process by mixing the viscous material with active viscous raw materials The experiment was carried out to discharge the optimum mixing ratio and drying method.

The present invention carried out the following method for the preparation of the active material. That is, the optimum mixing ratio of the active soil material and viscous material (barley grass) was derived by mixing and molding the active soil material and barley grass.

In order to mass produce active corrosive substances on its own, a method for mechanically producing active substances was derived.

The mechanically produced active corrosive was injected into the existing process to compare and evaluate the efficiency.

And Figure 2 is a picture of deriving the optimum mixing ratio of the active corrosive raw material and barley grass applied to the present invention, to derive the optimum mixing ratio of the active corrosive soil and viscous material to develop the mechanical mass production technology of the active corrosive material, and then A system was developed for mechanically mixing viscous material (barley grass) at an optimum mixing ratio and then mass production. And the developed active corrosive was injected into the actual process.

In addition, Figure 3 is a photograph of the optimum mixing ratio of the active soil material and viscous material applied to the present invention, Figure 4 is a mechanical mixing photograph of the active soil material and viscous material applied to the present invention, Figure 5 is an active corrosion material mechanical applied to the present invention The production process is a photograph, Figure 6 is a mechanically produced photograph of the active corrosion material applied to the present invention, Figure 7 is a photograph of the active corrosion material cut into a bar shape applied to the present invention, Figure 8 is injected into the process applied to the present invention This is a picture of the active corrosive that is tied to it.

And Figure 9 is a process injection picture of the active corrosion material applied to the present invention, Figure 10 is a picture of the intake and effluent sampling of the process of the present invention.

In order to evaluate the efficiency of the active corrosive mass produced in the present invention, the participant is injected into the treatment facility of Taean-gun S, which is treating the sewage by applying the BMW method, by measuring and analyzing the water quality of the influent and the outflow water. It was.

Experimental Analysis Results

After injecting the active corrosive mass produced in the present invention into the existing treatment facility, the water quality of the influent and the effluent was analyzed for about two months.

Date Influent (mg / l) Effluent (mg / l) BOD SS T-N T-P BOD SS T-N T-P 10/5 107 49 9 One 5 8 6 0.8 10/18 112 59 12 1.2 8 7 5 0.9 11/8 108 65 16 1.6 6 5 5 1.3 11/22 105 57 12 1.4 5 6 5 1.2

The analytical evaluation of the table above,

After injecting and operating the active corrosive mass produced in-house into the process, the analysis of BOD, SS, TN, and TP, the effluent water quality criteria for influent and effluent, showed that all items met the enhanced effluent quality standards. .

In addition, the treatment efficiency of the active corrosion material produced in the present invention showed a similar treatment efficiency as compared to the existing process when compared with the results measured by injecting the existing active corrosion material in the process.

Therefore, instead of the active corrosive material imported from Japan, the treatment efficiency of the active corrosive mass produced by using the cheap active corrosive raw material in the present invention shows the same effect as that of the existing expensive active corrosive material. It was confirmed that replacement is possible.

The technical idea of the additive composition for wastewater purification treatment of the present invention and its manufacturing method is actually capable of repeating the same result. have.

Claims (6)

delete In the additive composition for wastewater purification treatment,
Barley rice and water of the fine particles and allophane (particles) and activated humus soil and ash (ash) containing the additive composition for the wastewater purification treatment, the wastewater purification additive composition is, barley rice 400 Viscous material made by mixing 150-200 parts by weight of water with -450 parts by weight, 20-30 parts by weight of allophane, 200-250 parts by weight of activated humus soil and ash An additive composition for wastewater purification treatment comprising 200 to 250 parts by weight of the active corrosive material. delete delete delete delete

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