KR101142928B1 - System for separation of oil and sludge from food waste leachate - Google Patents

Abstract

An apparatus for separating oil and sludge from food waste desorption liquid according to the present invention comprises: a food waste dehydrator 1 for dewatering food waste to obtain food waste desorption liquid; A solid-liquid separator (2) which receives the food waste desorbing liquid discharged from the food waste dehydrator (1) and separates the solid suspended solids and the filtrate of the liquid phase first; A heating stirrer (10) for receiving the filtrate discharged from the solid-liquid separator (2), receiving the organic solvent extract from the separately connected organic solvent extracting tank (11), and heating and stirring the filtrate to which the organic solvent extract is applied; A condenser (13) for condensing the organic solvent extract solution evaporated in the heating stirrer (10) and recycling it to the heating stirrer (10); A three-phase separator 20 separating the filtrate discharged from the heating stirrer 10 into three phases of sludge, oil, and water in the form of solids; And a control unit.

Description

System for separation of oil and sludge from food waste leachate

The present invention relates to an apparatus for separating oil and sludge from food waste desorbent.

The desorption liquid discharged from food waste dehydration is composed of water, suspended solids and oil. The oil is present in the aqueous layer stably in an emulsion state, and the suspended solids are dispersed into fine particles, so it is difficult to separate the oil and the suspended solids from the desorption liquid in a conventional manner.

In general, the method of separating the oil from the food waste stripping solution is as follows. First, the food waste desorption solution is heated, and the solid sludge is separated in two stages by applying pressure by the rotation of the screw, and the refining liquid is heated again, and then the oil and oil-free wastewater is separated using a three-phase separator structure separator. And solid sludge of the remaining fine particles. Thereafter, the oil is separated from the separated oil by heating and settling. The oil is suspended and the remaining waste water is precipitated and separated.

However, this conventional method has the following problems. Heating the desorption solution can lower the viscosity, which is advantageous in separating solids and oils from the desorption solution using a centrifugal separation method.However, the oil is stably present in the aqueous layer as an emulsion and the organic solvent extract is very fine. In the absence of this, the separation efficiency of the oil is low. In addition, since the interface between oil, wastewater, and suspended solids separated from the three-phase separator is not clearly distinguished and a part is mixed, each component contains a considerable amount of other components. As such, when the degree of separation for each component is low, there is also a problem that the utility is lowered.

On the other hand, the following method is used for the high concentration wastewater treatment. First, separate solid suspended solids and liquid wastewater by using a solid-liquid separator, and inject air into the wastewater from which the suspended solids are separated, and then go through a scum removal device that removes the fine suspended solids and oil floating on the top. . Air is injected into the waste water treated as described above and passed through an aeration tank for aeration to increase the amount of dissolved oxygen, and then discharged through a post-treatment device to purify the discharged water.

Although the technique can be applied to the desorption solution, this also has the following problems. First, at room temperature, the separation efficiency of the solid-liquid separation of the desorption liquid is low, and the separation efficiency is very low because the oil in the emulsion state does not adhere well to the fine bubbles in the method of floating the fine suspended solids and oil by injecting the fine bubbles.

As such methods that have been used in the past, there are problems that can not effectively separate the oil and sludge from the food waste detachment.

Accordingly, the present invention has been made in order to solve the problems of the prior art as described above, the present invention is to effectively separate the oil and suspended solids from food waste stripping liquid to reduce the load of waste water, the most economical treatment method of general wastewater The wastewater is treated at the treatment plant, and the sludge, which is a separated solid, is dried and used as a solid fuel.The organic solvent extractant is separated and recycled from the separated oil, and fine particles contained in the remaining oil are filtered through an oil filter. The main component of the oil is animal and vegetable fats and oils, which is used as a biodiesel raw material. Degradable materials are biodiesel raw materials It is an object of the present invention to provide an apparatus for separating oil and sludge from food waste detachment liquid, which can be used as a solid fuel raw material.

Apparatus for separating the oil and sludge from the food waste desorption liquid of the present invention for achieving the above object, the food waste dehydrator (1) to dehydrate food waste to obtain a food waste desorption solution; A solid-liquid separator (2) which receives the food waste desorbing liquid discharged from the food waste dehydrator (1) and separates the solid suspended solids and the filtrate of the liquid phase first; A heating stirrer (10) for receiving the filtrate discharged from the solid-liquid separator (2), receiving the organic solvent extract from the separately connected organic solvent extracting tank (11), and heating and stirring the filtrate to which the organic solvent extract is applied; A condenser (13) for condensing the organic solvent extract solution evaporated in the heating stirrer (10) and recycling it to the heating stirrer (10); A three-phase separator 20 separating the filtrate discharged from the heating stirrer 10 into three phases of sludge, oil, and water in the form of solids; And a control unit.

At this time, the device for separating the oil and sludge is a reduced pressure evaporator 40 for receiving the oil discharged from the oil outlet 24 of the three-phase separator 20 to evaporate and separate the organic solvent extract; A condenser (41) for condensing the organic solvent extract liquid evaporated in the reduced pressure evaporator (40) and recycling it to the organic solvent extract liquid storage tank (11); And further comprising:

In addition, at this time, the device for separating the oil and sludge is an oil filter 50 for separating the fine particles from the oil discharged from the reduced pressure evaporator 40; A stirrer (51) for adding and stirring an organic solvent extract to the fine particles in which oil remains, so as to separate the oil remaining in the fine particles separated in the oil filter (50); A filter 53 for filtering and separating the organic solvent extract containing the liquid oil fraction discharged from the stirrer 51 and the solid fine particles; It further comprises, by sending the oil contained in the organic solvent extract separated in the filter 53 to the vacuum evaporator 40, characterized in that to separate the oil and the organic solvent extract.

In addition, the device for separating the oil and sludge is a dryer (30) for drying the solid solid separated in the solid-liquid separator (2) and the sludge separated in the three-phase separator 20 to be used as a solid fuel; And further comprising:

Alternatively, the device for separating oil and sludge may receive solid solids separated from the solid-liquid separator 2, sludge separated from the three-phase separator 20, and fine particles separated from the filter 53. Dryer 30 to be dried to be utilized as; And further comprising:

In addition, the device for separating the oil and sludge is an oil storage tank 52 for receiving and storing the oil separated from the oil filter 50 to be used as a biodiesel production raw material; Characterized in that further comprises.

Food waste desorption solution contains a large amount of suspended solids and oils, which are difficult to decompose, and have a very high load during waste disposal. The present invention is a technology for environmentally friendly treatment of the desorption solution by separating the moisture, solids, and oils that are the components of the desorption solution. Oil is a raw material of biodiesel because the main component is animal and vegetable oils and oils, and the solid component has a high calorific value and is not contaminated with heavy metals. As described above, according to the present invention, by effectively separating the desorption liquid, which is a representative pollutant that is most difficult to treat due to food waste, it contributes to the preservation of the environment as well as realizing green technology by using oil and solids as renewable energy raw materials. It has an effect.

The present invention uses an organic solvent extract to separate the relatively large particles from the food waste desorbent using a solid-liquid separator such as decanta, and to increase the separation efficiency when separating the sambun fraction from the filtrate obtained therefrom. By separating and recycling the used organic solvent extract liquid remaining in the oil after the three phase separation by the temperature difference and recirculating only a small amount of loss generated during the separation process, there is also an effect that can minimize the cost of the organic solvent extract.

1 is a process flow diagram of an apparatus for separating oil and sludge from food waste detachment solution according to the present invention.
2 is an embodiment of an apparatus for separating oil and sludge from food waste detachment solution according to the present invention.

Hereinafter, with reference to the accompanying drawings an apparatus for separating oil and sludge from the food waste detachment solution according to the present invention having the configuration as described above will be described in detail.

1 is a process flow diagram for separating oil and sludge from food waste detachment solution according to the present invention. Sludge (solid), oil, and water are mixed in the food waste desorption liquid, and the apparatus for separating oil and sludge from the food waste desorption liquid of the present invention is to effectively separate them and to discharge each of them as a highly useful result. Purpose. With reference to FIG. 1, the apparatus for separating oil and sludge from the food waste detachment solution of the present invention will be described in more detail.

First, the dewatering cake and the desorption liquid are separated from the food waste by the food waste dehydrator 1. At this time, the desorption liquid discharged from the food waste dehydrator 1 contains a large amount of suspended solids and oil. Therefore, the desorption liquid is first separated into relatively large particulate suspended solids and filtrates using a solid-liquid separator (eg, decanta). The relatively large particulate suspended solids separated here are supplied to the dryer 30 to become a material of the solid fuel.

The filtrate separated from the solid-liquid separator 2 is mixed with small particulate suspended solids, oil and water. Among them, in order to separate the suspended solids and oil from the filtrate, an organic solvent extract solution supplied from an organic solvent extracting tank 11 (eg, normal hexane) is added to the filtrate and introduced into the heating stirrer 10 and heated simultaneously with stirring. At this time, the heating stirrer 10 is connected to the condenser 13 so that the condensation of the evaporated liquid from the heating stirrer 10 is recovered, it is preferable to minimize the loss of the organic solvent.

The filtrate heated and stirred in the heating stirrer 10 is transferred to the three-phase separator 20, and the sludge (solid content), oil, and water (waste water) are separated by centrifugal force generated by the high-speed rotation in the three-phase separator 20. The components are separated from each other. Among these, the wastewater is discharged after the treatment in the wastewater treatment plant 25 because most of the oil and suspended solids are removed, thereby completely separating the water. In addition, the sludge separated from the three-phase separator 20 is supplied to the dryer 30 like the relatively large particulate solids separated from the solid-liquid separator 2, and is also a material of a solid fuel.

The oil separated from the three phase separator 20 is mixed with an organic solvent extract and fine particles, and the oil is not completely separated yet. Accordingly, in order to separate the organic solvent extract and the fine particles from the oil separated in the three-phase separator 20, it is passed through the vacuum evaporator 40 and the oil filter 50. First, in the process of passing the oil component (mixed organic solvent extract and fine particles) through the reduced pressure evaporator 40, the organic solvent extract is evaporated and then condensed and recovered by the condenser 41. The organic solvent extract liquid thus condensed and recovered is accommodated in the condensed organic solvent extract liquid storage tank 44, which is connected to the organic solvent extract liquid storage tank 11 to efficiently extract the organic solvent extract to the filtrate supplied to the heating stirrer 10. To be supplied as In FIG. 1, the organic solvent extract liquid storage tank 11 and the condensed organic solvent extract liquid storage tank 44 are illustrated as separate parts, but of course, these may be integrally implemented.

Next, in order to separate the remaining oil and the fine particle solids, the mixed liquid of the oil and the fine particles having passed through the reduced pressure evaporator 40 passes through the oil filter 50. As a result, the oil filtered out from the oil filter 50 may be used as a biodiesel raw material, thereby completely separating the oil.

Finally, the fine particles filtered by the oil filter 50 are supplied to the stirrer 51 to extract the oil remaining in the fine particles, the organic solvent extract is added to the stirrer 51 and stirred. In this case, as shown in FIG. 1, the organic solvent extract may be supplied from the condensed organic solvent extract tank 44, or may be supplied from the organic solvent extract tank 11, or the two reservoirs may be integrated. And from an integrated reservoir.

As described above, the fine particles (oil remaining) supplied to the stirrer 51 are separated into a liquid phase and a solid phase by passing through the filter 53 after the organic solvent extract is added and stirred, among which the liquid component Is the organic solvent extract and the oil extracted therefrom (the oil remaining in the fine particles), which is recovered by the vacuum evaporator 40 to minimize the loss of the oil and organic solvent extract (as a material of the biodiesel fuel). In addition, the solid component separated by passing through the filter 53 is fine particles from which residual oil is removed, which is combined with the solids separated by the solid-liquid separator 2 and the sludge separated by the three-phase separator 20. It is sent to the dryer 30 and dried and solidified.

The steps for separating solids, oils and water are summarized as follows. First, in the case of water, food waste passes through the food waste dehydrator 1 to obtain a desorption liquid (floating solid + oil + water) from which the dehydrated cake is removed, and the desorption liquid passes through the solid-liquid separator 2 to be relatively. A filtrate (small particulate suspended solids + oil + water) from which large particulate suspended solids have been removed is obtained, and the filtrate passes through the three-phase separator 20 to separate water in the form of waste water, and this water is separated into the wastewater treatment plant ( By passing through 25, it is completely treated and discharged as discharged water.

Next, in the case of oil fraction, food waste also passes through the food waste dehydrator 1 to obtain a desorption liquid (floating solid + oil + water) from which the dehydration cake is removed, and the desorption liquid passes through the solid-liquid separator 2. After the filtrate (small particulate suspended solids + oil + water) from which the relatively large particulate suspended solids have been removed is obtained, an organic solvent extractant is first applied to the filtrate to improve the separation efficiency of the oil by passing through the heating stirrer (10). Is processed. Thereafter, after the oil is separated from the three-phase separator 20, the oil passes through the reduced-pressure evaporator 40 to remove the organic solvent extract to obtain a residual liquid (fine particles + oil). This residual liquid passes through the oil filter 50 to obtain clean oil, and the oil thus obtained can be used as a biodiesel raw material.

Finally, in the case of solids, solids are obtained at almost every stage. That is, a relatively large particulate solid is obtained from the desorption liquid in the solid-liquid separator 2, sludge is obtained from the filtrate (organic solvent extract is added and heated and stirred) in the three-phase separator 20, and the oil filter 50 After the fine particles having a portion of the oil remaining in the organic solvent extract solution is added to the fine particles, the mixture is stirred, and the oil particles are removed by passing through the filter 53. In this way, the solids obtained in each step are collected in the dryer 30, and are dried in the dryer 30 to be made of solid fuel.

2 is an embodiment specifically implementing the apparatus of the present invention as described above. This will be described as follows. Since food waste has a high water content of about 80-85%, some foreign substances are removed from the dehydrator 1 after removing foreign substances. The dehydrator 1 is dehydrated by applying pressure to food waste, so that the desorption liquid discharged in this process includes a large amount of solids and oil as well as water. A solid-liquid separator (2) is used to separate the solids from the desorption liquid first. The solid-liquid separator is separated from solids by centrifugal force generated during high-speed rotation, and solids having a relatively large particle diameter are separated from the desorption liquor, discharged through the sludge discharge port 3, and transferred to the sludge storage tank 4, and the remaining filtrate is discharged through the filtrate outlet 5 Is discharged through).

The filtrate is transferred to the heating stirrer 10 by the filtrate transfer pump 12, and the organic solvent extract is added to the filtrate from the organic solvent extract liquid storage tank 11 during the transfer. The organic solvent extract is an additive added to facilitate the separation of water, solids, and oil from the filtrate in the three-phase separator 20, and a representative material is normal hexane. The filtrate is heated to between 70 and 80 degrees Celsius simultaneously with stirring in the heating stirrer 10. Heating reduces the viscosity of the filtrate and facilitates separation. Since the boiling point is 69 degrees Celsius under normal pressure of normal hexane, some normal hexane evaporates with water vapor during the heating process. In order to prevent the loss of normal hexane, the evaporated normal hexane and water vapor in the heating stirrer 10 are condensed in the condenser 13 and recovered to the heating stirrer 10. The cooling water of the condenser is supplied from the cooling tower 14 and circulated by the cooling water circulation pump 15. The heated filtrate is transferred to the three phase separator 20 by the filtrate transfer pump 16.

Three-phase separator 20 is a device in which the solid content and the liquid phase is separated by a screw rotating at high speed, and the water and oil are continuously separated by the specific gravity difference in the liquid phase. The separated solid is discharged through the sludge discharge port 21 and stored in the sludge storage tank 22. The sludge in the sludge storage tank 4 and the sludge storage tank 22 is transferred to the dryer 30 to remove moisture by heat and stored in the solid fuel storage tank 31. High moisture content of solid fuels causes combustion problems and too low treatment increases the energy usage in the dryer more than necessary. The Enforcement Regulations on the Conservation of Resources and the Promotion of Recycling regulate the moisture content of non-molded household solid fuel products to less than 25% of the weight of solid fuel products. The light oil component of the liquid component is discharged through the oil outlet 24 and is transferred to the reduced pressure evaporator 40 by the oil transfer pump 26. Liquid liquefaction The relatively heavy water is discharged through the wastewater outlet 23 and transported to the wastewater treatment plant 25 and discharged after the final treatment.

The fraction separated in the three-phase separator 20 includes fine particles and an organic solvent extract. The oil is heated under reduced pressure in the vacuum evaporator 40 to separate the organic solvent extract from the oil. The boiling point of normal hexane, a typical organic solvent extract, under normal pressure is 69 degrees Celsius, and the boiling point of oil is about 350 degrees, so the organic solvent extract can be separated by breaking the oil. The organic solvent extract liquid evaporated in the reduced pressure evaporator 40 is condensed in the condenser 41 and transferred to the organic solvent extract liquid storage tank 11 by the organic solvent extract liquid transfer pump 45 through the condensation organic solvent extract liquid storage tank 44 for reuse. do. Therefore, the organic solvent extract is recycled and some loss may occur during actual operation, so only the loss needs to be replenished. The cooling water required for the condenser is supplied by the cooling tower 42 and the cooling water is circulated by the cooling water circulation pump 43.

The oil separated from the organic solvent extract in the three phase separator is transferred to the oil filter 50 to filter fine particles. The oil particles separated from the fine particles are stored in the oil storage tank 52 and used as raw materials for producing biodiesel. Since the separated fine particles contain some oil, the oil is transferred to the stirrer 51 to recover the oil by the extraction operation, and the organic solvent extract is transferred from the organic solvent extracting tank 44 to the stirrer 51 and added. The mixed organic solvent extract and the fine particles are transferred to the filter 53, and the organic solvent extract and the oil separated from the filter 53 are sent to the vacuum evaporator 40 to separate the oil and the organic solvent extract. The fine particles separated from the filter 53 is dried in the dryer 30 together with the sludge and then sent to the solid fuel storage tank 31 to be used as the solid fuel.

[Example]

The food waste detachment liquid was separated into solid-liquid separation in the solid-liquid separator (2) to obtain a filtrate. In a filtrate 30, the organic solvent extract, Normal Hexane 1, was added and heated to 80 degrees Celsius. Some of the normal hexane was lost by evaporation because no normal hexane recovery unit was installed in the process. The filtrate was rotated at 3500RPM for 10 minutes in a centrifugal separator for three phase separation into oil, solids, and wastewater.

The suspended solids was analyzed by glass fiber filter paper and the turbidity was expressed in NTU (Nephelometric Turbidity Units). As shown in <Table 1>, the organic solvent extract was added to the filtrate and the filtrate was separated by three-phase separation with a centrifuge. As a result, most of the suspended solids in the aqueous layer moved to the sludge layer, and the turbidity in the aqueous layer was greatly improved.

The characteristics of the oil separated from the desorption solution by three-phase separation in the centrifuge as described above are shown in Table 2. The oil obtained by three-phase separation contains fine particles, and oil remains in the fine particles. The oil separation efficiency of Table 2 includes the oil separated from the fine particles.

No oil was observed in the solids and wastewater obtained by three phase separation, but oil was observed on the wall of the container. The main component of oil is animal and vegetable fats and oils, which are used as raw materials for biodiesel.

The characteristics of the solids separated from the filtrate by applying the three-phase separation method according to the present invention are shown in Table 3.

The solids were in sludge form and dried in a dryer maintained at 105 degrees Celsius for analysis. Industrial analysis is based on arrival samples, elemental analysis and calorific value are on dry samples. It is characterized by a higher volatile content than fixed carbon.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

1: food waste dehydrator 2: solid-liquid separator (decanta)
3: sludge outlet 4: sludge reservoir
5: filtrate outlet
10: heating stirrer
11: organic solvent extraction tank 12: filtrate transfer pump
13: condenser 14: cooling tower
15: cooling water circulation pump 16: filtrate transfer pump
20: three phase separator
21: sludge outlet 22: sludge reservoir
23: wastewater outlet 24: oil outlet
25: wastewater treatment plant 26: oil transfer pump
30: dryer 31: solid fuel reservoir
40: reduced pressure evaporator 41: condenser
42: cooling tower 43: cooling water circulation pump
44: condensed organic solvent extract storage tank 45: condensed organic solvent extract liquid transfer pump
50: oil filter 51: stirrer
52: oil reservoir 53: filter

Claims (6)

A food waste dehydrator (1) for dehydrating food waste to obtain food waste desorbing liquid;
A solid-liquid separator (2) which receives the food waste desorbing liquid discharged from the food waste dehydrator (1) and separates the solid suspended solids and the filtrate of the liquid phase first;
A heating stirrer (10) for receiving the filtrate discharged from the solid-liquid separator (2), receiving the organic solvent extract from the separately connected organic solvent extracting tank (11), and heating and stirring the filtrate to which the organic solvent extract is applied;
A condenser (13) for condensing the organic solvent extract solution evaporated in the heating stirrer (10) and recycling it to the heating stirrer (10);
A three-phase separator 20 separating the filtrate discharged from the heating stirrer 10 into three phases of sludge, oil, and water in the form of solids;
Apparatus for separating the oil and sludge from the food waste stripping liquid comprising a.
According to claim 1, wherein the device for separating the oil and sludge
A reduced pressure evaporator 40 which receives the oil discharged from the oil outlet 24 of the three-phase separator 20 and separates the organic solvent extract by evaporation;
A condenser (41) for condensing the organic solvent extract liquid evaporated in the reduced pressure evaporator (40) and recycling it to the organic solvent extract liquid storage tank (11);
Apparatus for separating the oil and sludge from the food waste stripping solution, characterized in that further comprises.
The apparatus of claim 2, wherein the oil and sludge separation device is
An oil filter 50 for separating fine particles from the oil discharged from the reduced pressure evaporator 40;
A stirrer (51) for adding and stirring an organic solvent extract to the fine particles in which oil remains, so as to separate the oil remaining in the fine particles separated in the oil filter (50);
A filter 53 for filtering and separating the organic solvent extract containing the liquid oil fraction discharged from the stirrer 51 and the solid fine particles;
It is made to include more
Apparatus for separating the oil and sludge from the food waste stripping solution, characterized in that for separating the oil and the organic solvent extract by sending the oil contained in the organic solvent extract separated from the filter 53 to the reduced pressure evaporator (40).
According to claim 1, wherein the device for separating the oil and sludge
A drier (30) which receives the suspended solids separated by the solid-liquid separator (2) and the sludge separated by the three-phase separator (20) to be used as a solid fuel;
Apparatus for separating the oil and sludge from the food waste stripping solution, characterized in that further comprises.
4. The apparatus of claim 3, wherein the device for separating oil and sludge is
A drier (30) receiving the suspended solids separated from the solid-liquid separator (2), the sludge separated from the three-phase separator (20), and the fine particles separated from the filter (53) to be used as solid fuels;
Apparatus for separating the oil and sludge from the food waste stripping solution, characterized in that further comprises.
4. The apparatus of claim 3, wherein the device for separating oil and sludge is
An oil storage tank 52 for receiving and storing oil separated from the oil filter 50 so as to be used as a biodiesel raw material;
Apparatus for separating the oil and sludge from the food waste stripping solution, characterized in that further comprises.

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