KR100353200B1 - Automatic migratory sludge disposal apparatus - Google Patents

Abstract

The present invention relates to an automated mobile sludge treatment apparatus, the object of which is to be able to process the sludge in the refinery tank according to an automated process. To this end, the present invention is a sludge treatment apparatus for suctioning and treating sludge stored in an oil refinery tank by an applied power source using a vacuum device installed in a vehicle, the sludge sucked through the vacuum device connected to the refinery tank Hopper for storing in the temporary storage tank installed in the tank, the pump is connected to the temporary storage tank is installed to pump the sludge stored in the temporary storage tank, oil separator for separating and discharging the oil contained in the sludge injected by the pump, connected to the oil water separator It is characterized in that it comprises a centrifugal separator installed to suck the sludge separated from the oil by the oil and water separator and to separate the liquid component contained therein, and to concentrate and discharge the remaining sludge. According to the present invention constituted as described above, a workbench required in the process of installing a workbench in a large oil refinery tank or a sewage treatment plant and putting a sludge into the bag by hand and discharging it out of the tank through a crane is unnecessary, and a separate Oil-water separation and dehydration can be easily processed at low cost through a single process without a treatment facility.

Description

Automatic migratory sludge disposal apparatus

The present invention relates to a sludge treatment apparatus, and more particularly, to an automated mobile sludge treatment apparatus having a consistent treatment system for treating sludge in an oil refinery tank according to an automated process.

In general, the sludge treatment apparatus refers to an apparatus for effectively treating sludge remaining in a large oil refinery tank in a refinery or a chemical plant, sludge including sludge generated in a sewage treatment plant, and sludge generated in a refinery.

The conventional method of treating sludge and sludge produced in various industries such as oil refineries, chemical plants, sewage treatment plants and spirit factories is a waste treatment method because sludge or sludge contains many heavy metals, organic substances or pollutants. It is entrusted to a specialized company or treated in-house like sewage treatment plant. In particular, a factory or a company installs a sewage treatment plant by itself and handles it at a high cost.

In the case of refining the above-mentioned specialized company, in the case of refinery tank, the worker enters the refinery tank and digs up the sludge by hand, puts the sludge in the hopper, which is a container for sludge, and lifts the hopper loaded with sludge by crane. .

In this method, there was a risk of falling loads in the process of moving to a crane, and there was a lot of risk for the worker to work by hand due to the poor working space. Moreover, in the case of rain, the sludge removal work was often interrupted because the sludge treatment was performed on a specific holiday when the plant was not operated. Sludge was loaded into a tank of a special vehicle to separate oil and sewage, and the remaining residue was finally treated in a landfill or incinerator, or dewatered sludge was dehydrated into a cake having a water content of about 40% and then landfilled or incinerated.

Although other sludge treatment methods have been attempted to neutralize heavy metals and use them as compost, they are not the effective methods because they are the main causes of soil and water pollution by leachate.

As described above, the conventional sludge treatment method has a lot of problems in terms of time, cost, efficiency and environmental conservation.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to provide an automated mobile sludge treatment apparatus having a consistent treatment system for treating sludge in an oil refinery tank according to an automated process. Another object of the present invention is to be able to treat the sludge according to an automated process to increase the efficiency higher than the manual throughput. Another object of the present invention is to reduce the sludge treatment cost through an automated process. It is another object of the present invention to perform the dewatering and dewatering operations through an automated sludge treatment apparatus, and to increase the treatment efficiency to contribute to environmental conservation.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of an automated mobile sludge treatment apparatus according to the present invention *** Explanation of symbols for major parts of the drawings *** 10: Oil refinery tank 100: Sludge treatment apparatus 110: Sludge suction pipe 112: First conveying pipe 114 : Second conveying tube 116: Third conveying tube 130: Temporary storage tank 140: Pump 150: Oil-water separator 160: Centrifuge 170: Generator 180: Controller 200: Vacuum pump car 210: Vacuum device 212: Vacuum suction pipe

The configuration of the present invention devised to achieve the above object is as follows. That is, the present invention is a sludge treatment apparatus for suctioning and processing the sludge stored in the refinery tank by the applied power using a vacuum device installed in the vehicle, the sludge sucked through the vacuum device connected to the refinery tank Hopper for storing in the temporary storage tank installed in the tank, the pump is connected to the temporary storage tank is installed to pump the sludge stored in the temporary storage tank, oil separator for separating and discharging the oil contained in the sludge injected by the pump, connected to the oil water separator It is characterized in that it comprises a centrifugal separator installed to suck the sludge separated from the oil by the oil and water separator, and to separate the liquid component contained therein, and then concentrated and discharged the remaining sludge. It will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of an automated mobile sludge treatment apparatus according to the present invention.

As shown, the automated mobile sludge treatment apparatus according to the present invention is largely vacuum suction to allow the sludge 5 inside the refinery tank 10 to be sucked into the sludge treatment apparatus 100. It consists of a sludge treatment apparatus 100 for treating the sludge 5 sucked by the vacuum pump car 200 and the vacuum pump 210 provided with a series of processes.

For reference, the refinery tank 10 is a general sludge storage tank currently used in an oil refinery or a chemical plant, and a through hole 12 is formed so that the sludge suction pipe 110 described below may be installed. 200 is to allow the sludge 5 inside the oil refinery tank 10 to be vacuum suction through the vacuum suction pipe 212 to be introduced into the sludge treatment apparatus 100, to discharge the air to make the interior into a vacuum state The vacuum device 210 to suck the sludge and one end is connected to the hopper 120 of the sludge treatment apparatus 100 described later, and the other end is connected to the vacuum device 210 to the vacuum suction pipe (to allow the vacuum suction) The suction force of the vacuum apparatus 210 of the vacuum pump car 200 is preferably 100 m / Hr. The sludge treatment apparatus 100 is the sludge 212 sucked by the vacuum suction pipe 212 described above. Automated process According to the treatment is discharged, sludge suction pipe 110, hopper 120, temporary storage tank 130, pump 140, oil and water separator 150, centrifuge 160, generator 170, controller ( 180) and the first, second, and third transfer pipes 112, 114, and 116. On the other hand, the sludge treatment apparatus 100 is designed separately from the vacuum pump car 200 by attaching a separate wheel to the device connecting portion 214. The sludge treatment apparatus 100 will be described in detail below. First, the sludge suction pipe 110 is inside the oil refinery tank 10. Sludge (5) of the intake into the hopper 120 of the sludge treatment apparatus 100, one end through the connection hole 12 of the refinery tank 10 to be located in the sludge inside the refinery tank 10 and the other end Is installed in the hopper 120. The hopper 120 has one side connected to one end of the sludge suction pipe 110, The municipal storage tank 130 is installed to adjust the input amount of the sludge 5 sucked into the sludge treatment apparatus 100 to be introduced into the temporary storage tank 130. That is, the hopper 120 is a vacuum suction pipe as described above When one end of the 212 is installed and the vacuum apparatus 210 is driven, the sludge 5 is sucked from the sludge suction pipe 12 by the suction force, and when the inside thereof becomes more than a predetermined amount, the vacuum suction pipe 212 is automatically provided. The sludge 5 is injected into the temporary storage tank 130 by opening the lower part and preventing the sludge 5 from being inhaled further. Then, the sludge 130 is introduced into the temporary storage tank 130. When this is completed, the vacuum suction pipe 212 is again in communication with the vacuum suction is made and the sludge 5 is started to be sucked into the inside, thereby repeating the above-described process. The temporary storage tank 130 is a hopper ( Sludge (5) introduced from 120) It is connected to the pump 140 through the first transfer pipe 112, which is stored as a pump. The pump 140 pumps the sludge 5 stored in the temporary storage tank 130 to the oil / water separator 150. In this case, the pump 140 is connected to the oil / water separator 150 through the second transfer pipe 114. The pump 140 may use various kinds of pumps according to particles, viscosity, etc. of the sludge 5. Since the use of such a pump can be easily carried out by those skilled in the art, the description thereof is omitted here. The oil / water separator 150 is described through the second transfer pipe 114 as described above. Installed in connection with the pump 140 and installed in connection with the centrifuge 160 through the third transfer pipe 116 to separate the oil contained in the sludge flowing through the pump 140 to the centrifuge 160 In addition, the sludge from which the oil is separated is introduced into the centrifuge 160 through the third transfer pipe 116, and the oil is discharged through a separate passage (not shown). Finally, the remaining liquid and water components contained in the separated sludge are dehydrated to be produced and discharged in a cake state, and are connected to the oil / water separator 150 through the third transfer pipe 116. Rotational force of 160 at high speed The water content is preferably about 3,600 RPM. On the other hand, liquid components such as water and oil separated by the centrifuge 160 are preferably processed together with the oil of the oil / water separator described above, and the water and oil are separated. The sludge in the cake state is put into a container such as a bag or drum and finally processed by landfilling or incineration. The generator 170 supplies power to the sludge treatment apparatus 100, and directly supplies external power to the site. In addition, the controller 180 may control the overall driving process of the sludge processing apparatus 100 and check the presence or absence of an abnormality of each apparatus to check the sludge processing apparatus 100. In order to be able to drive smoothly. Next, the automated removable sludge processing apparatus according to the present invention configured as described above. First, the user places one end of the sludge suction pipe 110 through the connection hole 12 of the oil refinery tank 10 in the sludge 5 inside the oil refinery tank 10, and then places the controller 180 therein. Next, the power supply of the generator 170 is supplied. Next, when the vacuum device 210 of the vacuum pump car 200 is driven, one end portion sucks the sludge 5 through the sludge suction pipe 110 located in the oil refinery tank. Here, the suction force of the vacuum device 210 is 100 m / Hr. When the sludge 5 is sucked through the sludge suction pipe 110, the hopper 120 closes the vacuum suction pipe 212 when the sludge becomes more than a predetermined amount therein. The sludge 5 is introduced into the sludge 5 while the sludge 5 is introduced into the temporary storage tank 130 installed at the lower portion thereof. In addition, when the sludge input to the temporary storage tank 130 is completed, the sludge 5 is introduced through the sludge suction tube 110 to communicate with the vacuum suction tube 212 again. The sludge 5 into the temporary storage tank 130. When the pump 140 is introduced, the pump 140 starts pumping and injects the sludge 5 into the oil / water separator 150 through the first and second conveying pipes 112 and 114. The second conveying by the pump 140 The sludge conveyed through the pipe is introduced into the oil and water separator 150, the oil and water separator 150 separates the oil contained in the transported sludge 5 and discharges it through a separate passage (not shown). The separated sludge is discharged to the centrifuge 160 through the third transfer pipe 116. The centrifugal separator 160 includes water and oil remaining in the sludge from which the oil introduced through the third transfer pipe 116 is separated. Of the liquid component is preferably discharged by using a centrifugal force of about 3600 RPM optimally in a separate passage ( And the sludge from which the liquid component is discharged is concentrated and discharged in a cake state. In this case, the liquid component such as water or oil separated in the centrifuge 160 may be separated from the oil separated in the oil / water separator 150. It can also be processed together. In addition, the sludge concentrated in the form of a cake separated from the liquid component is put in a container such as a bag or drum and finally processed by landfilling or incineration. The sludge treated through this process is 80% of an oil refinery tank. In the case of sewage sludge, the dehydration rate, which is only 60%, can be realized up to about 75%. The automated mobile sludge treatment apparatus according to the present invention as described above allows the technical idea of the present invention. Various modifications can be made within the range.

As described above, according to the present invention, the work table was installed in a large oil refinery tank or sewage treatment plant, and a workman was put into the bag by hand to put the sludge into the bag and discharged out of the tank through a crane. There is an effect that can prevent safety accidents caused by falling objects during the fall. Another effect of the present invention is to allow the sludge to be treated according to an automated process, thereby increasing the efficiency higher than the manual treatment rate. The effect can be to reduce sludge disposal costs through an automated process and also contribute to environmental conservation.

Claims (1)

In the sludge treatment apparatus for suctioning and processing the sludge 5 stored in the refinery tank 10 by the applied power using the vacuum device 210 installed in the vehicle 200, A hopper 120 connected to the oil refinery tank 10 and storing the sludge 5 sucked through the vacuum device 210 in a temporary storage tank 130 installed at a lower portion thereof; A pump 140 connected to the temporary storage tank 130 to pump sludge stored in the temporary storage tank 130; Oil-water separator 150 for separating and discharging the oil contained in the sludge introduced by the pump 140; Automated and removable, characterized in that it comprises a centrifuge (160) connected to the oil and water separator (150) to suck the sludge from which the oil is separated and to separate the liquid component contained therein, to concentrate and discharge the remaining sludge. Sludge treatment equipment.