KR101282596B1 - OIL SEPERATING APPARATUS OF Food waste sludge - Google Patents

Abstract

The present invention relates to a food stripping liquid oil separation device for recovering oil in the treatment of the food stripping liquid discharged from the food waste recycling process, and in the present invention, a food stripping liquid fraction separating the oil contained in the pretreated food stripping liquid. A separation device, which has an open bottom surface, is formed in an inner cylinder containing microbubbles and food desorption fluid, and has a cylindrical shape having a diameter larger than that of the inner cylinder, and includes an inner cylinder with a space between the outer wall of the inner cylinder and a predetermined space. An outer tube having an open bottom installed at a lower portion than an open bottom of the inner cylinder, and an inflow tube and an inner passage which mixes the pretreated food desorption solution with the microbubbles and flows in the direction of the inner tube normal It includes an outlet pipe for flowing out the supernatant generated in the space between the outer cylinder to the circulating water The food talriaek oil separation device according to Jing is provided.

Description

OIL SEPERATING APPARATUS OF Food waste sludge}

The present invention relates to a food stripping liquid oil separation device for recovering oil in the treatment of the food stripping liquid discharged from the food waste recycling process, and in detail, fine bubbles are mixed in the food stripping liquid and flowed into the separation tank of the swirl flow type to separate the oil of the stripping liquid. And it relates to a food desorption oil fractionation device for efficiently separating the solids.

In general, 'food desorption liquid' refers to a high concentration of organic waste liquid discharged from the food waste recycling process. Food desorption fluid is a waste solution containing about 15% solids and containing easily decaying organic matter.

Food waste and desorption liquids are prohibited from landfilling. At present, food desorption liquids are disposed of at sea or at sewage treatment plants with a water content of 95% or higher. However, dumping at sea is expected to be totally banned in 2013 under the London Convention, and there are concerns that complaints may arise due to the adverse effects of the treatment facilities and odors when the wastewater is treated at high concentrations.

Although the study on the recovery of energy from biogas production through the anaerobic digestion process using the anaerobic digestion process is being conducted as a policy direction, it is difficult to apply it to small and medium-sized treatment facilities. In particular, in the case of small and medium-sized businesses operated by private companies, it is necessary to improve the profitability by recovering the resources that can be recovered from food waste and desorption liquid.

Unlike other wastes, food waste / desorption liquids are mixed with 2-8% animal and vegetable oils depending on solids, water and treatment process, but the oil cannot be recovered by the general oil / water separation process. Therefore, the conventional treatment method is to recover the oil by the three-phase centrifugation method after heating over a predetermined temperature or to separate the oil by using a conventional flotation separation method.

However, in the existing oil separation method, the centrifugation method after heating or the pressure flotation method after heating is applied, resulting in an increase in energy cost due to the heating and centrifugation at high rotational speed. It is difficult to apply by recovery method.

In order to solve this problem, Korean Patent No. 10-0949149 discloses an oil separation apparatus using fine bubbles. However, the oil separation device disclosed in Korean Patent No. 10-0949149 is a device including a circulation pipe device because water used for generating fine bubbles is drawn from a flotation separation tank for solid-liquid separation in a post-process separated from the oil separation device. The configuration is complicated, and the load in the flotation tank for solid-liquid separation increases as the circulation water increases, which increases the size and required site of the device. In addition, the food desorption solution introduced into the oil separation unit after the pretreatment process must react with the microbubbles for a sufficient time in the oil separation unit, but the problem of insufficient separation of oil due to the reaction of the microbubbles and the food desorption solution for a relatively short time. Occurred.

The present invention is to solve the problems of the prior art, an object of the present invention is to produce and use the water used in the generation of fine bubbles in the oil separation device by using a simple food structure of the food desorption liquid separation device such as a circulation tube It aims to provide.

It is another object of the present invention to provide a food desorption liquid separation apparatus capable of maximizing oil separation efficiency by allowing the microbubble and the food desorption solution to react for a sufficient time in the oil separation apparatus.

The object of the present invention relates to a food desorption oil separation apparatus for separating the oil contained in the pre-treated food desorption liquid, the bottom surface is provided in an open shape and to have a region having a narrow width toward the bottom portion It is formed and formed into an inner cylinder for receiving micro bubbles and food desorption liquid therein, and a cylindrical shape having a diameter larger than that of the inner cylinder, and installed to include the inner cylinder therein with a space between the outer wall of the inner cylinder and an open bottom surface of the inner cylinder. An outer cylinder having an open bottom surface provided at a lower portion, and having an area having a narrower width toward a lower portion thereof, an outlet tube for discharging the supernatant generated in the space between the inner cylinder and the outer cylinder to the circulating water, After compressed air is mixed with the circulating water flowing out of the outlet pipe, the Is installed in the inlet pipe and the inner tube flowing in the normal direction can be achieved by the food talriaek oil separation device comprises a scraper that pushes the precipitate is precipitated in the pass the lower outer tub into the lower external cylinder.

As described above, according to the food detachment liquid separation apparatus of the present invention, by separating the oil in a single reaction tank, it is possible to minimize the effects by operating independently from other processes in the food removal solution treatment process, do not apply the heating or centrifugation process It is economical because oil can be separated without it, and the coagulation efficiency can be improved in the later coagulation process, resulting in the improvement of final treatment efficiency and reducing the amount of coagulant injection. To effect.

In addition, since the fine bubbles can be generated by using the water generated from the food desorption oil fractionation device, the circulation pipe structure is simplified, and the entire system can be separated and configured, so that the device can be easily configured.

In addition, the food desorption liquid oil separation device according to the present invention is to put the high-pressure micro-bubbles to the normal direction of the inner cylinder constituting the oil separation device to generate a swirl flow so that the fine bubbles and food desorption liquid reacts for a sufficient time. The separation efficiency can be maximized.

Figure 1 is a block diagram showing the configuration of the main part of the food desorption oil separation apparatus according to the present invention.
2 is an explanatory diagram for explaining a process of forming a swirl flow by forming the inflow pipe in the normal direction of the inner cylinder according to an embodiment of the present invention.

With reference to the accompanying drawings will be described in detail with respect to food desorption liquid treatment apparatus according to the present invention.

Figure 1 is a block diagram showing the configuration of the main part of the food desorption oil separation apparatus according to the present invention. As shown, the food desorption liquid separation unit according to the present invention is provided with an open bottom shape and the inner cylinder 114 containing the micro bubbles and food desorption liquid, and has a larger diameter than the inner cylinder 114 and the bottom open cylinder The outer cylinder 120 is formed to have a shape between the inner wall and the inner wall of the inner cylinder 114 is formed to have a shape longer than the open bottom of the inner cylinder 114 and the front wall, After the processed food desorption liquid is mixed with the fine bubbles, the inflow pipe 131 is introduced into the normal direction of the inner cylinder 114, and the upper portion of the precipitation region 107 in the space between the inner cylinder 114 and the outer cylinder 120 is generated. Outflow pipe 121 for flowing out the supernatant to be circulated water 109, pressure pump 110 for pressurizing the circulating water supplied from the outflow pipe 121, and air mixture for mixing the pressurized circulating water with compressed air By the pipe 125 and the air compressor 112 Compressed air pipe 123 for providing the compressed air to the air mixing pipe 125, the pressurized tank 111 for storing the air and the circulating water in a compressed state, and the air and the circulating water compressed mixed liquid stored in the pressurized tank 111 A compressed mixed liquid supply pipe 127 is supplied to the inflow pipe 131. The compressed mixed liquid supply pipe 127 was provided with a nozzle 113 for generating microbubbles in a previous step coupled with the inlet pipe 131. In addition, the skimmer 104 for removing the oil layer 103 generated in the upper layer and the scraper 108 for pushing the precipitate to the open lower portion of the outer cylinder 120 and the drive motor 105 for driving the additional It was provided.

Hereinafter, a description will be given of the oil separation process of the food desorption liquid oil separation device according to the present invention. The food desorption solution pretreated through the inlet pipe 131 is mixed with about 100-200% of the circulating water 109 including fine bubbles and introduced into the normal direction of the inner cylinder 114. The high pressure mixed water in which the fine bubbles introduced in the normal direction and the circulating water 109 are mixed is formed in the swirl flow region 102 in a swirl flow. The food desorption liquid in the swirl flow area 102 provides sufficient time for the oil contained therein to bind with the microbubbles while turning, and the microbubbles can rise smoothly after combining with the oil bubbles.

The oil combined with the fine bubbles in the food desorption liquid rises to the upper layer, and the remainder is precipitated in the downward direction of the inner cylinder 114 while forming a precipitate, and then the sediment is accumulated to the downward direction of the outer cylinder 120. At this time, it is preferable to determine the volume of the swirl flow region 102 so that the residence time of the swirl flow region 102 can be maintained for 30 to 60 minutes. The lower regions of the inner cylinder 114 and the outer cylinder 120 were provided in a tapered shape, the width of which narrowed toward the downward direction so as to maintain a constant stacking direction in the vertical direction of the inner cylinder or the outer cylinder.

Subsequent sedimentation zone 107 is a solid is precipitated to the bottom, and the precipitated solid is configured to maintain the inner cylinder above the bottom end height to reduce the swirl flow and to separate the solid according to the precipitation. Precipitation zone 107 is determined to maintain a volume of 60 to 90 minutes, which is a retention time to secure a level of supernatant that can be used as circulating water.

The supernatant liquid separated from the space between the inner cylinder 114 and the outer cylinder 120 in the settling tank is installed with an outlet pipe 121 so as to flow out to the pressure pump 110 for the generation of fine bubbles, and to the pressure pump 110. By the pressurized circulating water of 4 to 5 atm by the pressure tank 111. The pressurizing tank 111 serves to dissolve the air by introducing 10% of the amount of circulation water from the air compressor 112. In order to obtain sufficient supernatant of the water quality, the position of the outlet pipe 121 was formed higher than that of the inlet pipe 131.

The pressurized circulating water is finally mixed with the fine bubbles generated by the nozzle 113 in the inlet pipe 131 and the pretreated food desorption liquid and introduced into the oil separation device. In the upper part of the flotation tank, a skimmer 104 capable of removing oil and a scraper 108 capable of smoothly discharging the lower settled solids are installed and a driving motor 105 for driving the flotation tank is installed. The collected oil is stored in an oil reservoir not shown in the drawing, and the precipitated solids are transferred to an agglomeration reactor not shown and treated.

2 is an explanatory diagram for explaining a process of forming a swirl flow by forming the inflow pipe in the normal direction of the inner cylinder according to an embodiment of the present invention. FIG. 2 is an explanatory view showing the inlet pipe installed in the direction of the inner tube and the normal as a horizontal sectional view of the food desorbent oil separation device of FIG. FIG. 2 is not an accurate horizontal cross-sectional view, and for convenience of description, an inflow pipe 131 through which pretreated food desorption fluid flows in and an outflow pipe 121 through which circulating water 109 flows out are illustrated in one view.

As shown in FIG. 2, the inflow pipe 131 into which the pretreated food desorption solution flows is installed to penetrate the outer cylinder 120 and be connected to the inner cylinder 114 in the normal direction. Therefore, the pressurized water containing the food desorption liquid and the fine bubbles introduced through the inlet pipe 131 forms a swirl flow in the inner cylinder 114 as shown in FIG. 2, and the oil contained in the micro bubbles and the food desorption liquid. You will have time to react. The circulating water 109 generated on the solid precipitate and generated in the space between the inner cylinder 114 and the outer cylinder 120 is delivered to the pressure pump 110 through the outlet pipe 121.

101: inflow 102: swirl flow area
103: oil layer 104: skimmer
105: drive motor 107: settling area
108: scraper 109: circulating water
110: pressure pump 111: pressure tank
112: air compressor 113: nozzle
121: outlet pipe 123: compressed air
125: air mixing pipe 127: compressed mixed liquid supply pipe

Claims (6)

The present invention relates to a food leachate oil separation device for separating oil contained in a pretreated food leachate.
An inner cylinder provided with an open shape and formed to have an area having a narrower width toward a lower portion thereof, wherein the inner cylinder accommodates fine bubbles and food desorption fluid therein;
It is formed in a cylindrical shape having a larger diameter than the inner cylinder and is installed to include the inner cylinder therein with a predetermined space between the outer wall of the inner cylinder and has an open bottom provided at a lower portion than an open bottom of the inner cylinder. An outer cylinder formed to have an area having a narrower width toward the outer side;
Outflow pipe for flowing out the supernatant generated in the space between the inner cylinder and the outer cylinder to the circulating water;
An inlet pipe which mixes compressed air with the circulating water flowing out of the outlet pipe and then flows in the normal direction of the inner tube together with the pretreated food waste solution; And
The food stripping solution oil separation device, characterized in that it comprises a scraper which is installed in the inner cylinder and pushes the precipitate precipitated in the inner cylinder and the lower portion of the outer cylinder to the lower portion of the outer cylinder.
The method of claim 1,
A pressurizing pump for pressurizing the circulating water supplied from the outlet pipe;
An air compressor for introducing external air and then compressing it; And
And a pressurized tank for storing the air supplied from the air compressor and the circulated water supplied from the pressurized pump in a compressed state, wherein the compressed mixed liquid of the air and the circulated water stored in the pressurized tank is supplied to the inlet pipe. Food desorption oil component separation apparatus.
3. The method according to claim 1 or 2,
The outflow pipe is a food desorption oil fractionation device, characterized in that installed in a position higher than the inlet pipe.
3. The method according to claim 1 or 2,
Inside the inner cylinder, a swirl flow zone is formed in which air and the circulating water compressed mixture and the pretreated food desorption solution flow in a normal direction, and in the swirl flow zone, the air and the circulated water compressed mixture and the previous ( Before) The food detachment solution oil separation apparatus characterized in that the treated food leaving solution is to stay for 30 to 60 minutes.
delete The method of claim 2,
The food desorption liquid oil separation apparatus is further provided between the pressurized tank and the inlet pipe, a nozzle for generating fine bubbles from the compressed mixed liquid of air and circulating water supplied from the pressurized tank.

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