KR100946368B1 - Method for Treating Food Waste of Collective Residence Facilities - Google Patents

Abstract

The present invention relates to a method for treating food waste in a group residential facility using a bioreactor equipped with a packed tower, and more particularly, to separate particles and sewage contained in food waste and to decompose particles by microorganisms. By connecting the reactors equipped with each packed tower having a multi-step treatment of food waste, the present invention relates to a method of treating food waste in a collective residential facility by an aerobic or anaerobic biological method without the addition of chemicals.

According to the present invention, particles and sewage contained in the food waste are sequentially separated and decomposed, and are efficient, and are environmentally friendly because the food waste is decomposed and processed by the action of microorganisms, and a bioreactor equipped with a packed tower is used therein. Therefore, there is an advantage of high space utilization.

Filling Tower, Food Waste

Description

Method for Treating Food Waste of Collective Residence Facilities}

The present invention relates to a method for treating food waste in a group residential facility using a bioreactor equipped with a packed tower, and more particularly, to separate particles and sewage contained in food waste and to decompose particles by microorganisms. By connecting the reactors equipped with each packed tower having a multi-step treatment of food waste, the present invention relates to a method of treating food waste in a collective residential facility by an aerobic or anaerobic biological method without the addition of chemicals.

Food waste occurs in a variety of places, including homes, residential facilities such as apartments, restaurants, military units, group cooking facilities such as hospitals, and factories that handle food. The characteristics of food waste are perishable, so it is most hygienic and convenient to dispose of at the production site.

As a method of treating food waste generated in residential facilities around the world, in the US, a kitchen waste grinder is used to dispose of food waste in the kitchen as soon as it is generated and discharged together with sewage. Through the method of final treatment in the municipal sewage treatment plant is used (Fig. 1).

The discharge of crushed sewage using a crusher without intermediate treatment, as in the United States, is called direct injection, which is prohibited in most countries. This is because when using a crusher to directly feed the food waste sewage, two problems occur.

The first problem is that most food wastes are deposited in sewage pipes and are anaerobicly decomposed, causing methane gas explosions in confined spaces and often causing explosions. The second problem is that biological oxygen demand (BOD) is more than doubled. At this time, it is necessary to more than double the capacity of the city sewage treatment plant to treat sewage.

Most countries prohibit the use of grinders because directing the sewage pipelines or increasing the capacity of municipal sewage treatment plants requires a large budget and a long time.

Another way to dispose of food waste is to dispose of food waste together with the general garbage or to separate it into a collection bin outside the house or apartment, and then collect it once or several times a week with a cleaning truck and dispose of it with the garbage collected at a restaurant. By energy (eg methanation), composting or feeding.

Another way to dispose of food waste is the sewage intermediate treatment method, where sewage containing food waste is transported from the kitchen to the vicinity of a residential facility and then treated and discharged. This approach allows residents to live as conveniently as they do in American homes without harming the urban sewage environment.

In Japan, research on the intermediary treatment of food waste sewage began in 1994, and commercialization began in 1996. In 2006, about 50,000 households adopted the technology and use grinders.

In Japan, the intermediate treatment method introduces a method of miniaturizing the sewage treatment plant from the kitchen in the apartment basement.

For the treatment of food waste, the present inventors have developed a method of biologically treating sewage containing a lot of particles and sewage containing a small amount by filtration (Korean Patent No. 528651; US Patent No. 7,108,788). ).

In addition, the inventors separated the solid and liquid from the food waste by using a rotating wire mesh screen method, and then additionally remove the BOD through a packed column containing a stone, etc., and a food waste treatment method for treating the solid particles anaerobic. Although the screen filtration method has been developed, there is a problem of installing in a basement with limited space when scaled up, and it is still insufficient to satisfy environmentally friendly treatment standards (Korean Patent No. 645091).

For reference, environmentally friendly treatment standards may vary greatly depending on the type of discharge of sewage, and the details are shown in Table 1. In Table 1 below, gpcd and lpcd are the amount of BOD and water used per person per apartment, type A is a process for treating only kitchen sewage (mainly Japanese), and type B is additionally treated for bath and washing sewage. Type C refers to the process of additionally including sewage in the bathroom. Therefore, environmentally friendly treatment standards will have different values for each method.

Various concentrations by sewage discharge type (*: Japanese Standard) Type A Type B Type C unit BOD total amount (g) 45.5 54.5 67.5 gpcd Sewage total amount (L) 35 155 205 lpcd Emission concentration 1300 351 329 mg / L Allowable concentration * 300 125.8 15805 mg / L Concentration before use 600 180 200 mg / L Remarks Kitchen sewage + Bath and washing water + Toilet

Therefore, the present inventors have made efforts to improve the problems of the prior art, as a result, each equipped with a packed tower in a solid-liquid separator, a particle separation bioreactor and 1 to 7 sewage treatment bioreactor, the bioreactor for sewage treatment By connecting and operating in series in multiple stages, the present invention has been accomplished by confirming that a mixture of food waste and sewage can be separated into sludge and sewage that meets environmental standards without using chemicals.

It is an object of the present invention to provide a method for treating food waste in a group residential facility using a bioreactor equipped with a packed tower.

In order to achieve the above object, (a) transferring the mixture of food waste and sewage crushed in the crusher installed at the bottom of the kitchen sink through the sewage discharge pipe to the collective sewage pipe of the group residential basement; (b) separating the transferred mixture into sewage comprising a plurality of particles and sewage comprising a few particles in a solid-liquid separator equipped with a packed column for solid-liquid separation; (c) the sewage containing the plurality of particles is transferred to a particle separation bioreactor equipped with a particle separation packed column and a particle filtering packed column, and the sewage treated in the particle separation packed column is Transferring the particles to a first bioreactor equipped with a first packed column through a packed column for filtering particles, and discharging the particles in the form of solids; And (d) sewage containing the small number of particles is transferred to a first bioreactor equipped with a first packed column, treated together with the sewage transferred from the particle separation bioreactor, and treating the treated sewage. It is introduced into a second bioreactor equipped with a packed tower 2, treated and discharged sewage, and the particles precipitated in the first bioreactor and the second bioreactor is transferred to a bioreactor for separating particles, the step of treating the particles. Provides a method for treating food waste in group residential facilities.

According to the present invention, particles and sewage contained in the food waste are sequentially separated and decomposed, and are efficient, and are environmentally friendly because the food waste is decomposed and processed by the action of microorganisms, and a bioreactor equipped with a packed tower is used therein. Therefore, there is an advantage of high space utilization.

The present invention relates to a method for treating food waste in a group residential facility, and by using a bioreactor equipped with a packed tower therein, the food waste is easily separated into sewage and particles and decomposed by microorganisms, which is environmentally friendly and economical. Disposal of waste.

The term 'sewage containing a large number of particles' used in the present invention refers to sewage that does not pass through a packed column for solid-liquid separation mounted in a solid-liquid separator among a mixture of food waste and sewage that has passed through a grinder installed in a kitchen. Sewage, including particles that are large or easily sedimented, such as hair, ground bones, walnut shells, soil, etc., and these particles can get stuck in packed towers and block the flow of sewage if not treated separately. .

The term 'sewage containing a small number of particles' used in the present invention refers to sewage that has passed through a packed-liquid separation tower mounted on a solid-liquid separator from a mixture of food waste and sewage passed through a grinder installed in a kitchen. Means a mixture of particles and sewage that passed through the packed column for solid-liquid separation.

In other words, the 'sewage containing a large number of particles' and 'sewage containing a small number of particles' are 'passages' and 'not passed through' that have passed through a packed column for solid-liquid separation mounted in a solid-liquid separator, respectively. Will be pointing. At this time, the presence or absence of passage of the solid-liquid separation packed tower mounted on the solid-liquid separator is determined by the porosity of the solid-liquid separating tower and whether or not the food waste is decomposed by the microorganism.

The term 'solid-liquid separator (SL-1)' used in the present invention originally means a reactor for separating solids and liquids, but in the present invention, a relatively small particle of a mixture of food waste and sewage that has passed through a grinder installed in a kitchen. It is a separator that separates particles which are large in size or easily settled and cannot pass through the packed column and particles that can easily pass through the solid-liquid separation tower.

The term 'particle separation bioreactor (R-100)' used in the present invention refers to a bioreactor for treating sewage containing the plurality of particles.

As used herein, the term 'bioreactor for sewage treatment (R-101 and R-102)' refers to a bioreactor for treating sewage containing the small number of particles, and in the present invention, for 1 to 7 sewage treatment Bioreactors can be connected in series and run in multiple stages.

The term 'compression filter (SL-2)' used in the present invention refers to a reactor for discharging after removing the water of the solid content transferred from the bioreactor for separating particles (R-100).

Meanwhile, the solid-liquid separator, the particle separation bioreactor, the sewage treatment bioreactor, and the compression filter, which are the reactors used in the present invention, include a pH control unit, a temperature control unit, a substrate supply unit, a DO control unit, and the like. It is desirable to have the basic configuration of a bioreactor commonly used in the art.

The term 'crusher sewage' used in the present invention refers to a mixture of food waste and sewage that has passed through a grinder installed in a kitchen.

The term 'HEROS' used in the present invention is hygienic and hands-free, uses less energy (energy-saving), produces less residues (residue-free), and almost no smell. It refers to a method of treating food waste that is odor-free and requires less space for installing a facility. Hereinafter, the method for treating food waste according to the present invention will be referred to as HEROS.

The term 'treatment' used in the present invention has the same meaning as used in general sewage treatment, and specifically, various particles, suspended solids, etc. in food waste by reactions occurring in a bioreactor used to treat food waste in the present invention. It means to remove the purified sewage.

In the present invention, each bioreactor is equipped with a packed column, and their names are as specified below.

In the present invention, the packed tower mounted inside the solid-liquid separator is called a packed column for separating solid-liquid.

In the present invention, two packed towers are mounted inside the reactor for separating particles, and these are referred to as packed towers for separating particles and packed towers for filtering particles, respectively.

In the present invention, the packed towers installed inside the first bioreactor and the second bioreactor, which are sewage treatment packed towers, are referred to as a first packed tower and a second packed tower, respectively. The tower is referred to as an n-th packed column to those skilled in the art.

In the present invention, the packed column mounted inside the compression filter is called a packed column for filtering solid content.

The packing column used in the present invention means filling the inside of the cylindrical column with the filling media, and designing the inside of the cylindrical column in a desired shape, for example, a lattice shape, and then filling the filling medium. Includes what you have done.

In general, the construction and function of a packed column is dependent on the packing media, the packed media porosity (ε _mp , media porosity), packed tower void fraction (ε _mp , packed bed void fraction), and packed tower ratio (ε _rp ). Is determined by Specifically, the reaction rate, the pressure drop due to the packed tower, and the efficiency of the reactor may be optimized depending on the packed media, the packed media porosity, the packed tower porosity, and the packed tower ratio.

Filling media refers to a filling material to be filled in the filling tower, it is possible to select the filling media according to the purpose and the results to be promoted by using the filling tower.

Filled Tower Porosity The porosity when the inside of a packed column is filled with a charging medium is called the packed tower porosity.

The packed column ratio is a numerical value representing the volume occupied by the packed tower relative to the total volume of the reactor in the reactor equipped with the packed tower.

In one aspect, the present invention comprises the steps of: (a) transferring the mixture of food waste and sewage pulverized in a crusher installed at the bottom of a kitchen sink to a collection sewage pipe of a group residential basement through a sewage discharge pipe; (b) separating the transferred mixture into sewage comprising a plurality of particles and sewage comprising a few particles in a solid-liquid separator equipped with a packed column for solid-liquid separation; (c) the sewage containing the plurality of particles is transferred to a particle separation bioreactor equipped with a particle separation packed column and a particle filtering packed column, and the sewage treated in the particle separation packed column is Transferring the particles to a first bioreactor equipped with a first packed column through a packed column for filtering particles, and discharging the particles in the form of solids; And (d) sewage containing the small number of particles is transferred to a first bioreactor equipped with a first packed column, treated together with the sewage transferred from the particle separation bioreactor, and treating the treated sewage. It is introduced into a second bioreactor equipped with a packed tower 2, treated and discharged sewage, and the particles precipitated in the first bioreactor and the second bioreactor is transferred to a bioreactor for separating particles, the step of treating the particles. The present invention relates to a method for treating food waste in a group residential facility.

In the present invention, in the step (d), the sewage is treated by connecting 1 to n additional bioreactors having the same configuration and function as the second bioreactor equipped with the second packed column in series, wherein , n may be an integer of 2 or more.

In the present invention, the solids discharged in the step (c) is transferred to a compaction filter equipped with a solid filtration packing tower and concentrated, and then the solids are discharged, and the water is separated for the particles through the solid filtration packing tower. It may be characterized in that it further comprises the step of transferring to the bioreactor.

In this case, as a method of concentrating solids in the compression filter, for example, centrifugation or precipitation by gravity may be used, but is not limited thereto.

Hereinafter, an overall process of the food waste treatment method of the group residential facility will be described with reference to FIG. 2.

The mixture of food waste and sewage, which is crushed by a grinder installed at the bottom of the kitchen sink and transferred to the basement collection sewer pipe of the collective housing facility, is transferred to SL-1, and then into a sewage containing a plurality of particles and a sewage containing a few particles. Are separated.

The sewage containing a plurality of particles is transferred to R-100, and the sewage from which the particles are removed is separated into solids and sewage from which particles are removed by a particle separation packed column mounted inside the R-100. Transferred to -101, and the solids are discharged.

The sewage containing a few particles is transferred to R-101, then treated with the removed sewage from R-100 to R-101 and then to R-102. After the sewage is again treated in R-102, the particles are separated and removed once again, and the purified sewage is discharged, and the remaining particles precipitated in R-101 and R-102 are transferred to R-100 for treatment.

In addition, the solid content separated from R-100 is not immediately discharged, but may be transferred to SL-2, and then discharged in the form of solids from which moisture is removed by centrifugation or precipitation, wherein the moisture is R-100. The remaining solids present in the water are separated while passing through the packed column for filtration of solids, and then transferred to R-100 for processing.

In the present invention, the sewage may be any one or more selected from the group consisting of kitchen sewage, bath water, washing water and toilet water.

In the collective housing facility, the food waste crushed by the grinder installed in the bottom of the kitchen sink of each household is mixed with various sewage that may occur in the home, and is passed through the sewage discharge pipe to the collective sewer pipe of the group residential basement.

Therefore, according to the method of the present invention, as well as food waste, there is an advantage that can be treated at the same time various sewage generated at home.

In the present invention, a bioreactor equipped with a packed tower is used to treat food waste in a group residential facility transferred to an aggregate sewage pipe.

In the present invention, the solid-liquid separation column, particle separation column, particle filtration column, the first column, the second column and the solid column filtration column is upstream, pipe, duct type and flat plate It may be characterized in that it is selected from the group consisting of the type (Fig. 7).

In the present invention, the filling material of the solid-liquid separation tower, the particle separation packing tower, the particle filtration packing tower, the first packing tower, the second packing tower and the solid filtration packing tower is plastic, ceramic, crushed stone, metal , Sponge and activated carbon may be selected from the group consisting of.

In the present invention, the porosity of the solid-liquid separation tower, the particle separation packed tower, the first packed tower, the second packed tower, the particle filtration packed tower and the solid filtration packed tower is 5 ~ 95%, characterized in that can do.

If the porosity of each of the packed tower is less than 5%, or if the porosity of the packed tower exceeds 95%, there is a problem that the efficiency of separation and decomposition function of the packed tower is inferior.

In order to treat food waste and sewage by the method according to the invention, a mixture of food waste and sewage is introduced into SL-1.

In the present invention, the volume of the solid-liquid separation tower may be characterized in that 5 to 20% of the total volume of SL-1.

As shown in Figure 3, looking at the configuration of the SL-1 solid-liquid separation tower is located inside the SL-1. When the ratio of the packed column for solid-liquid separation is less than 5%, the efficiency of separating the mixture of food waste and sewage into sewage containing a plurality of particles and sewage containing a few particles is reduced, and the ratio of packed column for solid-liquid separation is 20%. If it exceeds, since the gains can be substantially the same as the filling tower ratio is increased, the ratio of the packed column for solid-liquid separation is preferably 5 to 20%.

When SL-1 is filled with a mixture of food waste and sewage, the sewage containing a small number of particles passed through the solid-liquid separation tower in the mixture is transferred to R101, and a number of failures that have not passed through the solid-liquid separation tower Sewage containing particles of is transported to R100.

At this time, the material passing through the solid-liquid separation column is a sewage containing a small number of particles as defined above as a material that is small enough to pass through the pores of the solid-liquid separation column or decomposable by microorganisms. The material that does not pass through the solid-liquid separation tower is a material that is large enough to not pass between the pores of the solid-liquid separation tower or a material that cannot be decomposed by microorganisms, and thus, a plurality of particles as defined above. It is the sewage to include.

SL-1 performs the function of separating the sewage containing a plurality of particles and the sewage containing a few particles as described above. Here, the term "many" and "minority" may refer to the amount of particles, but may also mean the size of particles determined by whether or not the solid-liquid separation tower can pass or whether the particles can be decomposed by microorganisms.

Sewage comprising a plurality of particles separated from SL-1 and transferred to R-100 is treated by R-100 having the configuration and function as described below.

In the present invention, the volume of the particle separation packed column may be characterized in that 1 to 5% of the total volume of R-100, the volume of the particle filtration packed column is 1 relative to the total volume of R-100. It may be characterized by a ~ 5%.

When the volume of the particle separation packed column is less than 1% of the total volume of R-100, there is a problem that the efficiency of the packed column separating and decomposing sewage containing a plurality of particles in the packed column is inferior. Since the practical effect obtained by increasing the volume ratio of the packed column is the same, it is preferable that the volume of the particle filtration packed column is 1 to 5% of the total volume of R-100.

As shown in Figure 4, looking at the configuration of the R-100, the inner reactor is formed by a partition of the size of the outer diameter of the R-100 in the inside, the air is injected into the inner reactor to supply the oxygen Mix the solution inside the internal reactor and outside the internal reactor in R-100. In other words, the sewage containing the small number of particles introduced into R-100 is mixed with air without mechanical stirring.

When R-100 is filled by sewage containing a plurality of particles separated from and transported from SL-1, the sewage is passed through a packed column for separating particles, wherein the sewage is contained in the sewage containing the plurality of particles. At the same time, the segregation of the sewage other than the particles occurs, the decomposition of the particles contained in the BOD and the sewage is caused by aerobic or anaerobic microorganisms, and the particles which do not pass through the packing column for particle separation due to the size of the particles contained in the sewage are precipitated. do. The sewage from which particles are removed after passing through the particle separation packed column is transferred to R-101, and the precipitated particles are discharged in the form of solids or are transferred to SL-2.

In addition, the R-100 includes a packing column for particle filtration separately from the packing column for particle separation, and after filtering the sewage from which the particles are removed by the packing column for particle separation through the packing column for particle filtering. , Transfer to R-101.

R-100 separates the particles in the sewage containing a plurality of particles using a particle separation packed tower mounted therein and is decomposed by microorganisms, thereby transferring the sewage that has passed through the particle decomposition packed tower to R101. At the same time performs a function of separating the particles that do not pass through the particle separation packed column in the form of solids. At this time, the sewage passing through the particle decomposition packing tower is removed from the particle filtering packing tower as the remaining particles are separated, decomposed and precipitated again while passing through the particle filtering packing tower before being transferred to R101.

On the other hand, sewage containing a small number of particles separated from SL-1 and transferred to R-101 is treated by R-101 having a structure and a function as described below.

In the present invention, the volume of the first packed column and the second packed column may be characterized in that 40 to 50% of the total volume of the first bioreactor and the second bioreactor, respectively.

In the function of the packed column to separate and decompose sewage containing a small number of particles if the volume ratio of the first packed column and the second packed column is less than 40% of the total volume of the first bioreactor and the second bioreactor, respectively. There is a problem that the efficiency of the falling, and if it exceeds 50%, since the substantial effect obtained by increasing the volume ratio is the same, the volume ratio of the first packed column and the second packed column is respectively the first bioreactor and the second It is preferably 40-50% of the total volume of the bioreactor.

Preferably, the first bioreactor is positioned at the top of the reactor while the volumes of the first packed column and the second packed column occupy 40-50% of the total volume of the first bioreactor and the second bioreactor, respectively. And a small number of particles introduced into the second bioreactor.

Looking at the first bioreactor, the lower part of the first bioreactor can act as an air fluidized bed reactor to evenly mix the sewage containing a few particles, the upper part of the reactor by the separation and decomposition of the first packed tower BOD Can be removed while effectively removing. That is, the bottom of the reactor can be utilized as a complete mixing (CSTR) reactor and the top of the reactor as a plug flow reactor (PFR).

As shown in FIG. 5, looking at the configuration of R-101, an internal reactor is formed in a partition having a size 1/3 of the outer diameter of R-101, and a first packed tower is mounted on the upper portion. Air is injected into the internal reactor to supply oxygen, and at the same time, a solution outside the internal reactor is mixed in the internal reactor and in R-100.

When R-101 is filled by sewage containing a small number of particles separated from SL-1 and sewage transferred from R-100, it is first processed by a function such as CSTR at the bottom of R-101, It is then secondary processed by a PFR-like function by a first packed tower mounted on top of the R-101.

In this case, the sewage passing through the first packed column in R-101 is transferred to R-102, and particles that do not pass through the first packed tower in R-101 are transferred to R-100 again.

1 to n bioreactors that can be used in series with the R-101 in the present invention have the same configuration and function as the R-101.

On the other hand, the solid content separated and transported from R-10O may be discharged after being processed by SL-2 having the configuration and function as described below.

In the present invention, the solid filtration packed column may have a volume of 1 to 5% based on the total volume of SL-2.

In the present invention, looking at the configuration of the SL-2, as shown in Figure 6, the solid filtration packed column is located occupying the above-described volume in the reactor. When the SL-2 is filled with the solids separated and transferred from R-100, the water of the solids is removed by centrifugation, and the waters separated from the solids are transferred to R-100 while passing through the packing column for solids filtration.

SL-2 discharges the solids from which moisture is removed by centrifugation, and transfers the moisture back to R-100.

In the present invention, the method of discharging the treated food waste may be directly discharged solids and sewage to the sewer, the solids may be discharged just after removing the moisture or dried, the solids are discharged after a certain period and the sewage immediately It can also be discharged.

In the present invention, the food waste may be characterized in that the treatment by a biological method, the biological method may be characterized in that the aerobic or anaerobic treatment method.

As a result, according to the present invention, since food waste is treated only by biological methods without using chemicals, it is environmentally friendly, consumes little energy, and transports food waste through sewage pipes installed in group residential facilities such as apartments. There is no need to install a separate sewage pipe, so it can be used not only for new apartments but also for existing apartments.

Hereinafter, the present invention will be described in more detail with reference to Examples. These examples are only for illustrating the present invention, it will be apparent to those skilled in the art that the scope of the present invention is not to be construed as being limited by these examples.

Example  1: Measure the water quality of the sewage of the apartment before the installation of the grinder

The quality of the sewage discharged was measured before the mill was installed in the kitchen of a normal household. The measurement target was seven promotion apartments in 65 Cheongdam-dong, Gangnam-gu, Seoul, where 90 households live.

Sewage discharged from this apartment from the sewer around the apartment daily from 09:00 AM to 10:00 AM for two months from April 3 to June 2, 2006. 500 ml of water was collected and COD and BOD were measured by standard methods.

As a result, as shown in Table 2, the average value of OD was 302mg / L, maximum 1378mg / L, minimum 99mg / L, and BOD was 153mg / L, maximum of 28 measurement data. 300mg / L, minimum 39mg / L, SS, the average of 39 measurements were 80mg / L, maximum 435mg / L, minimum 11mg / L.

Water quality measurement results of sewage discharged from the apartment before the crusher is installed OD BOD SS Number of measurements 35 times Episode 28 Episode 39 Average 302 mg / L 153 mg / L 80 mg / L maximum 1378 mg / L 300 mg / L 435 mg / L at least 99 mg / L 39 mg / L 11 mg / L

Example  2: Sponge  Solid-liquid Separation Method of Used Food Waste

After closing both sides of the container with a sponge (3M, USA) in a 1L container, put the sewage through the grinder on the right side of the container, empty the other side, and let the sewage through the grinder on the right flow to the left. Both COD and BOD were measured.

As a result, the sewage before passing the sponge was 13 times and the average COD was 9942 mg / L and the BOD was 764 mg / L. The removal rate of was shown.

Example  3: method for separating solid waste from food waste using a filter

Activated carbon having a diameter of 5 mm was charged into a square reactor having a height of 1 m and an area of 600 cm ² . The bibimbap was ground with a grinder to make a simulated sewage solution, and the COD of the sewage before the passage of the filter and the sewage after the passage of the filter were measured from the top down through the pipe having a diameter of 3 cm installed in the center of the reactor.

As a result, in this case, the results of 10 experiments showed that the sewage before the filter passed average COD of 1024 mg / L, and the sewage COD of the sewage after the filter passed 275 mg / L with 74.2%.

At this time, when the porosity of the activated carbon was lowered to 28% or less, 100% of the microorganisms contained in the simulated sewage solution were removed, and when the porosity was 70% or more, the microorganisms were hardly removed. In addition, when the porosity was less than 28%, the packed tower was completely filled with microorganisms, and the operation of the packed tower was impossible. Therefore, when the porosity in the packed column is 28 ~ 70%, it was found that the highest microbial removal efficiency.

Example  4: HEROS Water quality of the final treated water of the system

The water quality of the final treated water by HEROS system according to the present invention was investigated using seven promotion apartments in 65 Cheongdam-dong, Gangnam-gu, Seoul, where 90 households live.

Eight out of the 15 households of the test subjects installed the grinder only in seven households because the kitchen substructure was inadequate for the installation of the grinder. Therefore, only R-102 is operating, and environmental compliance is tested on this basis.

As a result, the data for the three months from July 12, 2007 to October 17, 2007 were 1265 mg / L for the influent and 428 mg / L for the BOD. The number of COD 201 (up to 473, minimum 37) of BOD 106 (up to 228, minimum 24) mg / L is 72, which is superior to the 125.8 mg / L standard for Type B sewage shown in Table 1. there was. The final effluent is also estimated to be less than 50 mg / L because the final effluent from the filtration process is visually clear.

Example  5: HEROS  Measurement of Solids Generated by the System

Particles and soluble materials contained in the sewage that passed through the mill were treated through a bioreactor so that the sewage was treated to at least meet the criteria prior to installing the mill, and sewage, which took a long time to decompose, was able to dislodge particles from the R-100. The precipitate was concentrated, precipitated and concentrated to remove moisture with SL-2. The final solids removed from about 80L of mill sewage removed from R-100 was 194g with a water content of 69.7%. The 80L is about one-quarter of the 300L R-100 reactor, which may increase or decrease depending on the degree of biological treatment of the final solids.

Having described the specific part of the present invention in detail, it is obvious to those skilled in the art that such a specific description is only a preferred embodiment, thereby not limiting the scope of the present invention. something to do. Accordingly, the substantial scope of the present invention will be defined by the appended claims and their equivalents.

Figure 1 shows a comparison of the waste disposal method of each country.

Figure 2 shows a flow chart of the treatment of the mixture of food waste and sewage pulverized by a grinder.

Figure 3 shows a solid-liquid separator (SL-1) equipped with a solid-liquid separation packed tower used in the present invention.

4 shows a particle separation bioreactor (R-100) equipped with a particle separation packed column and a particle filtration packed column used in the present invention.

FIG. 5 shows a first bioreactor R-101 equipped with a first packed column for sewage treatment used in the present invention.

Figure 6 shows a compression filter (SL-2) equipped with a packed column for filtration of solids used in the present invention.

Figure 7 shows the type of charging tower that can be used in the present invention.

Claims (14)

How to dispose of food waste in collective housing, including the following steps: (a) transferring the mixture of food waste and sewage, which is pulverized in a crusher installed at the bottom of the kitchen sink, to a collection sewer pipe in a basement of a residential facility through a sewage discharge pipe; (b) separating the transferred mixture into sewage comprising a plurality of particles and sewage comprising a few particles in a solid-liquid separator equipped with a packed column for solid-liquid separation; (c) the sewage containing the plurality of particles is transferred to a particle separation bioreactor equipped with a particle separation packed column and a particle filtering packed column, and the sewage treated in the particle separation packed column is Transferring the particles to a first bioreactor equipped with a first packed column through a packed column for filtering particles, and discharging the particles in the form of solids; And (d) the sewage containing the small number of particles is transferred to a first bioreactor equipped with a first packed column, treated together with the sewage transferred from the particle separation bioreactor, and the treated sewage Introducing into a second bioreactor equipped with a packed column, treating and then discharging sewage; and depositing the particles precipitated in the first bioreactor and the second bioreactor to a particle separation bioreactor for treatment. The method of claim 1, wherein in step (d), the treatment of sewage is performed by connecting 1 to n additional bioreactors having the same configuration and function as the second bioreactor equipped with the second packed column. How to feature, N is an integer of 2 or more. The method of claim 1, wherein the solids discharged in the step (c) are transferred to a compaction filter equipped with a solids filtration packing tower, concentrated, and then the solids are discharged, and the water is separated from the particles through the solids filtration packing tower. The method further comprises the step of transferring to a bioreactor. The method of claim 1, wherein the sewage of step (a) is selected from the group consisting of kitchen sewage, bath water, washing water and toilet water. According to claim 1 or 3, wherein the solid-liquid separation tower, the particle separation packed column, the first packed column, the second packed column, the packed column for particle filtration and solid filtration packed column is upstream, pipe type , Duct type and flat type. According to claim 1 or 3, wherein the packing material of the solid-liquid separation tower, the particle separation packed column, the first packed column, the second packed column, the packed column for particle filtering and the packed column for solid filtration is made of plastic, And ceramics, crushed stone, metals, sponges, and activated carbons. The porosity of claim 1 or 3, wherein the packed column for solid-liquid separation, the packed column for separating particles, the first packed column, the second packed column, the packed column for filtering particles and the packed column for filtering solids is 5 to 95. And%. The method of claim 1, wherein the volume of the solid-liquid separation column is 5 to 20% of the total volume of the solid-liquid separator. The method of claim 1, wherein the volume of the particle separation packed column is 1 to 5% of the total volume of the particle separation bioreactor. The method according to claim 1, wherein the volume of the particle filtration packed column is 1 to 5% of the total volume of the bioreactor for particle separation. The method of claim 1, wherein the volume of the first packed column and the second packed column is 40 to 50% of the total volume of the first bioreactor and the second bioreactor, respectively. The method of claim 1, wherein the particle separation packed column is characterized in that the decomposition of the particles by aerobic or anaerobic microorganisms. The method of claim 1, wherein the first packed column and the second packed column is characterized in that the sewage containing a small number of particles to purify to meet the environmental standards. The method of claim 3, wherein the solid filtration packed column is filtered by a centrifugal separator in a compression filter to remove solids remaining in the moisture.

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