KR20110046813A - Bio- gas Regenerative Waste Processing Apparatus and Methode - Google Patents

Abstract

PURPOSE: A food waste and wastewater treatment apparatus using bio-gas and a method thereof are provided to improve the treatment efficiency by removing the necessity of a separate chemical treatment process for removing salt from leachate. CONSTITUTION: A food waste and wastewater treatment apparatus(100) comprises the following: an oil separating tank(110) separating oil(20) from inserted raw food waste and wastewater(10); a drum screen tank(120) separating impurities(30) from the raw food waste and wastewater using a drum screen(121); a decomposition tank(600) generating bio-gas(60) by decomposing and fermenting the impurities collected by the drum screen and the oil separated from the separating tank; and an evaporator(700) evaporating processed water discharged from the drum screen tank using heat generated by combusting the bio-gas.

Description

Bio-gas Regenerative Waste Processing Apparatus and Methode for Recycling Food Biogas

The present invention relates to a negative waste water treatment apparatus and method for regenerating food biogas, an oil separation tank (110) for separating the oil (20) from the incoming negative wastewater (10), and the oil separation tank (110). The drum screen tank 120 and the oil separation is separated from the waste water source 10 from which the oil 20 is separated, and the workpiece 30 is separated using a drum screen 121. A septic tank for producing biogas 60 by decaying / fermenting the fraction 20 separated from the oil 20 and the drum screen 121 separated from the tank 110. 600 and an evaporation apparatus 700 for evaporating the treated water 40 introduced from the drum screen tank 120 with the heat of burning the biogas 60 and separating it from the residue. Negative wastewater treatment apparatus 100 for reusing and using food biogas and negative wastewater treatment method using the same It relates.

In general, there is a dry treatment method using dry as a method of treating the waste mixed with solid and liquid components, such as food waste, such as "waste water treatment device" (Korea Patent No. 10-0824290) Receptors supporting the wastewater, the wastewater inlet for introducing the wastewater, the oil pipe for spirally contacting the inside of the receptor and supplying heat to the wastewater introduced therein, and heat to the wastewater through the oil pipe An oil heater for heating the oil for supplying oil, a steam discharge pipe for discharging water vapor evaporated from the waste water by the heat supplied from the oil pipe, and a compression valve formed at the end of the steam discharge pipe to discharge the steam at high pressure / high temperature. And a first receptor composed of a wastewater discharge portion for discharging the wastewater after the treatment is completed. Depressed third receptor; When the waste water heated in the third receptor is supported, and heat is supplied to the waste water loaded from the high pressure / high temperature steam discharged from the first receptor, water is partially removed, and water is generated when the water is removed from the waste water. There is an apparatus comprising a second receptor for heating the waste water carried on the third receptor by transferring water vapor to the third receptor. However, in this case, it is difficult to treat a large amount of wastewater in a short time, as well as in the steam, in such a manner that the wastewater contacts the oil pipe through which the oil heated by the oil heater passes to dry the wastewater so that the water vapor evaporates. There is a problem that problems such as odor or air pollution remain as it is discharged because the vaporized pollutant is contained.

In addition, a circular iron plate for transporting the wastewater, such as "apparatus for treating wastewater generated during the food waste treatment process" (Korean Patent No. 10-0825233), a support for supporting the circular iron plate, and a lower portion of the circular iron plate It is installed and installed on the circular iron plate and the heating column is built in the rotary pillar for rotating the iron plate receiving the driving force from the motor, the heating plate is installed in the lower portion of the iron plate and is located between the support and supply heat to the circular iron plate There is a device having a configuration comprising a hopper for supplying wastewater, a height adjusting device for uniformly spreading the wastewater supplied from the hopper on the iron plate, and a blade for separating the solidified material from which the wastewater is changed on the iron plate. . However, in the case of the device, it is difficult to treat a large amount of waste water in a short time, and a high operating cost is consumed because a lot of electric power is consumed to heat the heating plate, as well as the odor due to the discharge of vaporized contaminants in the water vapor. Problems such as air pollution still exist.

On the other hand, in addition to the dry treatment method described above, a composting / feeding method using a method such as aerobic fermentation or wet treatment or a carbonization method using incineration has been used. However, in the case of composting / feeding methods using aerobic fermentation or wet treatment, the processing time is very long, and the size of the facility for treatment is large, and thus, installation cost and operation cost are very high. However, there has been a problem that leachate containing organic / inorganic pollutants still occurs during the treatment process. In addition, the carbonization method using incineration not only consumes a large amount of energy sources such as electricity or petroleum / coal required for operation, but also causes air pollution.

In order to supplement the existing method of treating the mixed waste of solid and liquid components, the sedimentation tank is used to sediment and separate the solid component, and the leachate as a liquid component is a hollow fiber membrane or a reverse osmosis membrane. It has been proposed to use a method of filtration and treatment.

However, such a conventional method or apparatus also requires a relatively long time for the solid components to settle in the settling tank to use the settling tank to separate the solid components, as well as a large size settling tank is required for installation and operating costs There was a problem that this increased. Furthermore, in the process of filtering the separated leachate of the liquid component using a hollow fiber membrane or a reverse osmosis membrane in a single process, the service life of the hollow fiber membrane filter apparatus or the reverse osmosis filtration apparatus is reduced due to the rapid blockage of the hollow fiber membrane or the reverse osmosis membrane. There was a problem that the need for frequent replacement occurs.

In particular, in the method of treating wastes containing a large amount of salt such as food waste, it is required to treat the waste water as much as possible in the discharged water discharged after the treatment is completed. Decomposition / removal or electrolysis to decompose / remove salts has been used.

However, the method of using the drug has a problem that the cost of continuously supplying the drug to be used is relatively high and takes a long time, as well as other residual components of the drug in the discharged water as it is.

On the other hand, in the case of the method using the electrolysis also requires a large amount of power continuously, and the installation of the reaction electrode structure and the reaction tank for the electrolysis reaction and the maintenance of a lot of maintenance in order to prevent the chemical components adsorbed on the electrode to reduce the efficiency There was a problem that the effort and the cost were constant.

The present invention solves the above problems, it is not necessary to perform a separate chemical treatment to remove the salt in the leachate containing the salt which is a particularly problematic problem in drinking water to reduce the treatment cost and increase the treatment efficiency It is the task to do it.

In addition, the water is evaporated using the heat generated when burning biogas containing methane generated during the fermentation / decay process of the solids and the like and the oil produced during the treatment of the negative waste water to condense. Since the clean water is discharged almost to distilled water, it is a problem to be able to process very efficiently without supplying a separate energy source or fuel.

In order to achieve the above object, the negative wastewater treatment apparatus for regenerating and using the food biogas of the present invention includes an oil separation tank 110 for separating the oil 20 from the raw wastewater raw water 10 and the oil separation tank. A drum screen tank 120 connected to the 110 and separating the constrictor 30 by using a drum screen 121 from the negative wastewater 10 from which the oil 20 is separated; Decaying the fermentation / fermentation of the sediment (30) separated from the oil 20 and the drum screen (drum) (121) separated from the oil separation tank 110 to produce a biogas (60) ( a septic tank 600 and an evaporator 700 for evaporating the treated water 40 introduced from the drum screen tank 120 with the heat from burning the biogas 60 and separating it from the residue. It features.

In addition, the first treatment tank 230 and the aluminum sulfate solution supply device 220 which adjust the acidity PH of the treated water 40 introduced from the drum screen tank 120 and are connected to the sodium hydroxide supply device 210. Chemical treatment tank 200, characterized in that comprises a second treatment tank 240 connected to; It characterized in that it further comprises.

In addition, the three-phase separator 400 for separating the oil 20 and the solids 50 contained in the treated water 40 passed through the chemical treatment tank 200; Characterized in that further comprises.

In addition, the heating reservoir 500 includes a heat exchanger 510 through which the water vapor 70 evaporated from the evaporator 700 passes and preheats the treated water 40 discharged from the three-phase separator 400. ); Characterized in that further comprises.

In addition, the first storage tank 130 for storing the treated water 40 introduced from the drum screen tank 40, and the second storage tank for storing the treated water 40 introduced from the chemical treatment tank 200 ( 300 and the discharge tank 800 for storing the condensed water 80 discharged from the heat exchanger 510 is characterized in that it further comprises.

In addition, the low-density liquid and the oil separation is installed between the three-phase separator 400 and the septic tank 600, the oil 20 separated from the three-phase separator 400 A low specific gravity storage tank 410 for storing the oil 20 separated from the tank 110 and installed between the three-phase separator 400 and the septic tank 600, the three phase It is characterized in that it further comprises a solid storage tank 420 for storing the solid 50 separated from the separator 400 and the confinement 30 separated from the drum screen 121.

In addition, a gas storage tank 610 for storing the biogas 60 generated in the septic tank 600, and impurities connected to the gas storage tank 610 and included in the biogas 60. Characterized in that it further comprises a gas purifier 620 for processing.

In addition, a carbonization device 900 for carbonizing the waste sludge 90 discharged from the septic tank 600 to produce a solid fuel; Characterized in that further comprises.

In addition, the first reservoir 130, the water level sensor for detecting the water level (131); And discharge control means 132 for controlling the operation of the discharge pump 133 according to the level detected by the water level sensor 131; Characterized in that further comprises.

In addition, the second storage tank 300, the water level sensor for detecting the water level (331); And discharge control means 332 for controlling the operation of the discharge pump 333 according to the level detected by the water level sensor 331; Characterized in that further comprises.

In addition, the discharge tank 800, the water level sensor for detecting the water level (801); Discharge control means (802) for controlling the operation of the discharge pump (803) according to the level detected by the water level sensor (801); Characterized in that further comprises.

On the other hand, in order to achieve the above problem, the wastewater treatment method using the food biogas of the present invention, the step of separating the oil (20) from the oil separation tank (110) containing waste (food waste) ( S1); And separating the confinement material 30 as a solid component from the drum screen tank 120 in which the drum screen 121 connected to the oil separation tank 110 is installed (S2). And, the oil 20 and the condensate (30) to decay / fermentation in a septic tank (600) to produce a biogas (60) (S3); And evaporating the treated water 40 with the heat burned by the biogas 60 in the evaporator 700 to separate the residue from the residue (S7); And a control unit.

In addition, adjusting the acidity of the treated water 40 introduced from the drum screen tank 120 by mixing sodium hydroxide (NaOH) and aluminum sulfate (AL₂ (SO₄) ₃); Characterized in that further comprises.

In addition, the step of separating the oil 20 and the solid 50 by centrifugation of the treated water 40, the acidity is adjusted (S5); Characterized in that further comprises.

In addition, the step of preheating the acidity-controlled treatment water 40 through a heat exchanger 510 through which water vapor 70 evaporated from the evaporation apparatus 700 passes (S6); Characterized in that further comprises.

According to the present invention, there is no need to perform a separate chemical treatment for the removal of salts in the leachate containing salinity, which is particularly problematic in drinking water, there is an advantage that can reduce the treatment cost and increase the treatment efficiency .

In addition, the water is evaporated using the heat generated when burning biogas containing methane generated during the fermentation / decay process of the solids and the like and the oil produced during the treatment of the negative waste water to condense. Since the clean water is discharged almost close to distilled water, it is possible to treat very efficiently without contributing energy source or fuel and contribute to environmental protection.

On the other hand, the residual amount of biogas generated may be used as a fuel in a treatment facility or a general household in which the present invention is used, and may be sold as fuel.

Hereinafter, with reference to the accompanying drawings, it will be described in detail the wastewater treatment apparatus and method for regenerating food biogas according to an embodiment of the present invention. First, in the drawings, the same components or parts are to be noted that as indicated by the same reference numerals as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

First, a description will be given of a negative wastewater treatment apparatus for regenerating and using food biogas according to an embodiment of the present invention.

The wastewater treatment apparatus for regenerating food biogas according to an embodiment of the present invention has a large oil separation tank 110, a drum screen tank 120, and a septic tank 600 as illustrated in FIG. 1. , And an evaporator 700.

First, the oil separation tank 110 will be described. As shown in FIG. 1, the oil separation tank 110 separates the oil 20 rising to the top after storing the introduced negative wastewater 10. As shown in FIG. 1, the oil separation tank 110 separates the confinement material 30 by using a drum screen 121 from a negative wastewater source 10 in which the oil 20 is separated. The drum screen tank 120 is connected. Since the technology for constructing the drum screen 121 is a method widely known and used in the art to which the present invention pertains, a detailed description thereof will be omitted.

On the other hand, as shown in Figure 1, the drum screen tank 120, the chemical treatment tank 200 is preferably connected to adjust the acidity (PH) of the treated water. As shown in FIG. 1, the chemical treatment tank 200 adjusts the pH (PH) of the treated water 40 introduced from the drum screen tank 120, and supplies sodium hydroxide (NaOH) 210. And a first treatment tank 230 connected through a sodium hydroxide supply adjusting means 214 for adjusting the supply amount according to the acidity detected by the acidity sensor 213, and an aluminum sulfate (AL₂ (SO₄) ₃) solution supplying device ( 220 and a second treatment tank 240 connected through an aluminum sulfate (AL₂ (SO₄) ₃) solution supply control means 224 to adjust the supply amount according to the acidity detected by the acidity sensor 223 to be configured. It is desirable to.

Next, the three-phase separator 400 will be described. As shown in FIGS. 1 and 2, the three-phase separator 400 separates the oil 20 and the solid 50 included in the treated water 40 that has passed through the chemical treatment tank 200. . Various embodiments are possible as the embodiment of the three-phase separator 400, and as a temporary example, it is preferable to use a centrifugal three-phase separator as shown in FIG. The technology for constructing the centrifugal three-phase separator is a method widely known and used in the art to which the present invention pertains, and thus a detailed description thereof will be omitted.

Next, a septic tank 600 will be described. The septic tank 600 is separated from the oil 20 separated from the oil separation tank 110 and the drum screen 121 as shown in FIGS. 1 and 2. Decay / ferment the crop 30 has a function to produce a biogas (60). In this case, it is preferable to use the low temperature fermentation method so that the decay / fermentation process does not require a separate heating / heating means and a separate energy source for heating / heating.

On the other hand, in order to use the oil 20 separated from the oil separation tank 110, as shown in Figure 1 between the three-phase separator 400 and the septic tank (600) A low specific gravity liquid containing the oil 20 separated from the three-phase separator 400 and a low specific gravity reservoir 410 for storing the oil 20 separated from the oil separation tank 110 are further installed. It is preferable. In addition, in order to use the workpiece 30 separated from the drum screen 121, the three-phase separator 400 and the septic tank 600 as shown in FIG. The solids storage tank 420 for storing the solids 50 separated from the phase separator 400 and the constriction 30 separated from the drum screen 121 is preferably further installed.

On the other hand, in order to elastically supply the biogas 60 generated in the septic tank 600 according to the required amount required in the treatment process, as shown in Figure 1 the septic tank (600) ), The gas reservoir 610 is preferably installed. On the other hand, the biogas 60 contains about 60% of methane (CH₄) that can be used as fuel, about 30% of carbon dioxide (CO2), and other gas components occupy the rest. Therefore, it is preferable to remove carbon dioxide (CO2) and other gaseous components for a more efficient combustion process, and for this purpose, as shown in FIG. 1, it is connected to the gas reservoir 610 and the biogas 60. It is preferable to include a gas purifier 620 for processing impurities contained in.

Next, the evaporator 700 will be described. As shown in FIGS. 1 and 2, the evaporator 700 uses heat generated when the biogas 60 is combusted with the treated water 40 introduced from the drum screen tank 120. It vaporizes in the state of steam 70 and has a function of separating from residues such as salt. In this case, in order to more effectively use the heat amount of the steam 70 to increase the treatment efficiency, as shown in FIGS. 1 and 2, the vapor 70 vaporized by the evaporator 700 passes. It includes a heat exchanger 510, and preferably further comprises a warm storage tank 500 having a function of preheating the treated water 40 discharged from the three-phase separator 400.

On the other hand, in the case of the waste sludge 90 discharged from the septic tank 600, considering that the main component is composed of an organic compound, as shown in Figure 1 and 2, the waste sludge 90 It is preferable to include a carbonization apparatus 900 for carbonizing a to produce a solid fuel. Since the technology for constructing the carbonization apparatus 900 is a method widely known and used in the field to which the present invention belongs, detailed description thereof will be omitted.

In addition, in order to flexibly respond to the difference in the degree of progress in the treatment process in each component of the present invention, as shown in Figure 1, the treated water 40 introduced from the drum screen tank 40 A first storage tank 130 to store, a second storage tank 300 to store the treated water 40 introduced from the chemical treatment tank 200, and the condensed water 80 discharged from the heat exchanger 510. It is preferable that the discharge tank 800 further comprises a. In this case, the first reservoir 130, the water level sensor 131 for detecting the water level and the discharge control means 132 for controlling the operation of the discharge pump 133 according to the water level detected by the water level sensor 131. It is preferable that it is configured to include more. In addition, the second reservoir 300 is a water level sensor 331 for detecting the water level and the discharge control means 332 for controlling the operation of the discharge pump 333 according to the water level detected by the water level sensor 331. It is preferable to comprise more. In addition, the discharge tank 800, the water level sensor 801 for detecting the water level, and the discharge control means 802 for controlling the operation of the discharge pump 803 according to the water level detected by the water level sensor 801. It is preferably configured to further include.

Next, a description will be given of a wastewater treatment method for regenerating and using the food biogas of the present invention.

In the wastewater treatment method using recycled food biogas of the present invention, as shown in FIG. 2, a step of separating the oil 20 from the oil separation tank 110 by separating the waste 10 including food waste ( S1); And separating the confinement material 30 as a solid component from the drum screen tank 120 in which the drum screen 121 connected to the oil separation tank 110 is installed (S2). And, the oil 20 and the condensate (30) to decay / fermentation in a septic tank (600) to produce a biogas (60) (S3); And evaporating the treated water 40 with the heat burned by the biogas 60 in the evaporator 700 to separate the residue from the residue (S7); It is configured to include.

Meanwhile, in order to properly adjust the acidity of the treated water 40 introduced from the drum screen tank 120, sodium hydroxide (NaOH) and aluminum sulfate (AL₂ (SO₄) ₃)) as shown in FIGS. 1 and 2. It is preferable that the mixing step further comprises a step of adjusting (S4).

In addition, the acidity of the treated water 40, as shown in Figures 1 and 2 are separated by the centrifugal separation of the oil 20 and the solid 50 (S5) is configured to further comprise It is preferable.

In addition, in order to increase the thermal efficiency, as shown in Figs. 1 and 2 through the heat exchanger 510 through which the water vapor 70 evaporated from the evaporator 700 passes through the treated water 40 whose acidity is adjusted. Preheating step (S6) is preferably further configured.

In the foregoing description, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is an overall configuration diagram of a negative wastewater treatment apparatus using a food biogas according to an embodiment of the present invention.

2 is a flow chart of a negative wastewater treatment method using recycled food biogas according to an embodiment of the present invention.

<Description of Symbols Used in Main Parts of Drawing>

10: raw waste water 20: oil

30: crop 40: treated water

50: solid content 60: biogas (Bio-Gas)

70: vapor 80: condensation

90: waste sludge

100: wastewater treatment device

110: oil separation tank 120: drum screen tank

121: drum screen

130: first storage tank

200: chemical treatment tank

210: sodium hydroxide feeder

220: aluminum sulfate supply device

230: first treatment tank 240: second treatment tank

250: stirrer

300: second storage tank

400: three-phase separator

410: low specific gravity storage tank 420: solid content storage tank

500: heated storage tank 510: heat exchanger

600: decay tank 610: gas reservoir

620: gas purifier

700: evaporator

800: discharge tank

900: carbonization device

Claims (15)

An oil separation tank 110 for separating the oil 20 from the introduced negative wastewater 10; The drum screen tank is connected to the oil separation tank 110 and separates the workpiece 30 using a drum screen 121 from the raw wastewater 10 from which the oil 20 is separated. 120); Corruption tank for producing biogas 60 by decaying / fermentation of the oil fraction 20 separated from the oil separation tank 110 and the contaminant 30 separated from the drum screen 121 ( septic tank 600; An evaporator (700) for evaporating the treated water (40) introduced from the drum screen tank (120) with heat from burning the biogas (60) and separating the residue from the residue; Negative wastewater treatment apparatus 100 for regenerating food biogas comprising a. The method according to claim 1, Adjusting the pH (PH) of the treated water 40 introduced from the drum screen tank 120, and the first treatment tank 230 and the aluminum sulfate solution supply device 220 connected to the sodium hydroxide supply device 210 and A chemical treatment tank 200 comprising a second treatment tank 240 connected thereto; Drinking water treatment apparatus 100 for regenerating food biogas, characterized in that it further comprises a. The method according to claim 2, A three-phase separator 400 separating the oil 20 and the solids 50 included in the treated water 40 passing through the chemical treatment tank 200; Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that the configuration further comprises a. The method of claim 3, A heating reservoir 500 including a heat exchanger 510 through which the water vapor 70 evaporated in the evaporator 700 passes, and preheating the treated water 40 discharged from the three-phase separator 400; Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that the configuration further comprises a. The method according to claim 4, A first storage tank 130 for storing the treated water 40 introduced from the drum screen tank 40; A second storage tank 300 for storing the treated water 40 introduced from the chemical treatment tank 200; Discharge tank 800 for storing the condensed water 80 discharged from the heat exchanger (510); Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that the configuration further comprises a. The method according to claim 5, The low-density liquid and the oil separation tank installed between the three-phase separator 400 and the septic tank 600 and including the oil 20 separated from the three-phase separator 400 ( A low specific gravity reservoir 410 for storing the oil 20 separated at 110; Installed between the three-phase separator 400 and the septic tank (600), the solids separated from the three-phase separator 400 and the condensate separated from the drum screen 121 A solid storage tank 420 for storing 30; Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that the configuration further comprises a. The method according to claim 6, A gas storage tank 610 for storing the biogas 60 generated in the septic tank 600; A gas purifier 620 connected to the gas storage tank 610 and processing impurities contained in the biogas 60; The sound wastewater treatment apparatus 100 for regenerating and using sound plant biogas, characterized in that the configuration further comprises a. The method of claim 7, A carbonization apparatus 900 for carbonizing waste sludge 90 discharged from the septic tank 600 to produce a solid fuel; Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that the configuration further comprises a. The method according to claim 8, The first storage tank 130, A water level sensor 131 for detecting a water level; Discharge control means (132) for controlling the operation of the discharge pump (133) according to the level detected by the water level sensor (131); Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that further comprises a. The method according to claim 8, The second storage tank 300, A water level sensor 331 for detecting a water level; Discharge control means (332) for controlling the operation of the discharge pump (333) in accordance with the level detected by the water level sensor (331); Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that further comprises a. The method according to claim 8, The discharge tank 800, A water level sensor 801 for detecting a water level; Discharge control means (802) for controlling the operation of the discharge pump (803) in accordance with the level detected by the water level sensor (801); Drinking water treatment apparatus 100 for regenerating and using food biogas, characterized in that further comprises a. Separating the oil (20) from the oil separation tank (110) containing waste (10) containing food waste (S1); Separating the condensate 30, which is a solid component, from the drum screen tank 120 in which the drum screen 121 connected to the oil separation tank 110 is installed (S2); Producing a biogas (60) by decaying / fermenting the oil (20) and the condensate (30) in a septic tank (600) (S3); Steaming the biogas (60) in the evaporator (700) to evaporate the treated water (40) and separating it from the residue (S7); Wastewater treatment method for regenerating and using food biogas, characterized in that comprising a. The method according to claim 12, Adjusting the acidity of the treated water 40 introduced from the drum screen tank 120 by mixing sodium hydroxide (NaOH) and aluminum sulfate (AL₂ (SO₄) ₃); Wastewater treatment method for regenerating and using food biogas, characterized in that further comprises a. 14. The method of claim 13, Separating the oil 20 and the solid 50 by centrifugation of the treated water 40 having the acidity adjusted (S5); Wastewater treatment method for regenerating and using food biogas, characterized in that further comprises a. The method according to claim 14, Preheating the treated water 40 with the acidity adjusted through a heat exchanger 510 through which water vapor 70 evaporated from the evaporator 700 passes (S6); Wastewater treatment method for regenerating and using food biogas, characterized in that further comprises a.

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