KR100911667B1 - An apparatus combined cpi with iaf for separating oil-water effluent from hou and the method of using it - Google Patents

Abstract

An oil removing device capable of removing oil flowed from a crude oil separation facility and a method thereof are provided to offer excellent oil separation efficiency with inexpensive cost, and to solve problems generated in specific oil. An oil removing device in which a CPI oil separator and an IAF oil separator are combined includes the followings: a water spout; the CPI oil separator; the IAF oil separator; a monitoring pit; a skimming oil tank in which skimming oil is flowed; a skimming oil separation tank separating oil components of hydrophilic property oil wastewater flowed from the skimming oil tank; an oil catch storing the oil flowed from the CPI oil separator; and a vacuum car inhaling sludge of oil components flowed from the skimming oil tank.

Description

An apparatus combined CPI with IAF for separating oil-water effluent from HOU and the method of using it}

The present invention relates to a novel oil and water separation apparatus and method. More specifically, the present invention relates to a method for more effectively and economically separating the effluent flowing out from Heavy Oil Upgrading (HOU) as compared to the conventional method.
Therefore, the present invention is not only deeply related to the crude oil refining apparatus and method, in particular, the naphtha cracking process, and also related to the device for separating oil and water, and thus, the technology of the environmental field, in particular, oil removal and water treatment.

Oil-water separation refers to a phenomenon in which the oil contained in the water or the water in the oil is separated by the difference in the specific gravity of the oil and water in the gravity or centrifugal field. When oil mixed in factory wastewater or wash water becomes oil droplets and the emulsion dispersed in water is left in the tank, oil is lighter than water, so it floats and condenses to separate into two liquid phases of oil and water. This is called floating separation and is the opposite of sedimentation of water droplets in oil, but the phenomenon is the same. If the size of the oil droplets is 1mm or more, the emulsion is unstable and relatively easy to separate, but emulsions with oil droplets of 1 to 1.5㎛ in diameter are stable and take a long time to separate flocculation. When the emulsion is heated, the viscosity becomes low, and the movement speed of the water droplets increases, and when the surface tension of the water droplets is large, the condensation speed increases. To promote the condensation of droplets, there is a filtration method using a hydrophilic or hydrophobic membrane or a fibrous layer depending on the purpose, and is used for removing trace moisture in aircraft fuel.
The API (American Petroleum Institute) oil water separator, which is widely used as an oil water separator for wastewater contained in oil refineries, installs several horizontal plates in a tank to remove sedimentary particles and continuously separate oil droplets of 150 μm or more. Recover. Parallel plate interception (PPI), or corrugated plate interceptor (CPI) oil / water separators, which increase the effective separation area by inserting multiple parallel ramps into the tank instead of a horizontal ramp, replaces the ramps with waves instead of flat plates. It is used to separate oil droplets larger than 60㎛.
In the case of the CPI as a device for removing the hydrophobic oil component that is generally floating on the water is characterized in that the floating on the water by magnetic force when the particle size of the oil is present in more than 30 micron. In this case, the hydrophobic oil can be removed by 99% or more through the CPI device, and the hydrophobic oil, but when the particle size is 7 ~ 30 micron, it is difficult to injure by magnetic force may be mixed in the water. In this case, since hydrophobic oil is difficult to remove through the CPI apparatus, in order to remove more than 95% of the oil component, it is possible to force the CPI and IAF apparatus in parallel.
In some cases, additional physicochemical or biological treatment facilities may be installed. For stable emulsions, centrifugal decanters or centrifuges are used. If the oil floats on the surface in a glass state, the oil is pumped up with water to settle or separate in the tank, or absorbed and recovered by pumice, sawdust, cloth, sponge, etc. Dispersed in water and settled in water.
In addition, there are EPS, CPS, and SPS. These oil / water separators are fixed, not fluid, using a multi-stage corrugated or egg-shaped combination. As a result, the adsorption power is reduced, and the oil concentration of the influent is limited to 1000-1,500 ppm or less, and the suspended solids concentration of the influent is also limited to 250 ppm or less. Inflow oil is only available for low-viscosity oils such as lubricating oil, fuel oil, and mechanical oil, and is vulnerable to grease, bunker C oil, and animal oil.
Another oil-separation method is the IAF (Induced Air Flotator), which is an IAF oil separator, which effectively removes hydrophilic oils in water. When the emulsion beaker of the coagulant component is injected in the same amount as the above, it is forced to float together with the bubbles generated in the bubble generator under the IAF, and when the particle size of the hydrophilic oil is 2 micron or less, the removal rate is maximum 90% (average 80 %) Is possible. In addition, the particle size of the hydrophilic oil has a feature that can be removed 95% when 2 to 10 micron.
However, as described above, the existing oil-water separator has a disadvantage in that the oil-water separation efficiency is low, the price is high, the processing capacity is small, and the oil is effective only in specific oils.

Therefore, in the present invention, it is a main problem to solve the disadvantages of the existing oil water separator, that is, the oil water separation efficiency is low, the price is high, the processing capacity is small, and only the specific oil is effective.

Therefore, the present invention uses the IAF device as a pretreatment device in the case of hydrophilic oil wastewater according to the water quality of the oil wastewater and applies the CPI device as a post-treatment to effectively remove oil components and in the case of hydrophobicity, using CPI as a pretreatment device. Post-treatment is a process technology that is treated with IAF equipment, and it provides a new process that can actively cope with changes in the characteristics of oil wastewater and water quality of generated wastewater by cross-connecting inlet pipes with CPI and IAF equipment intact. As a means for solving the above problems.
More specifically, the present invention to solve the above problems
A collecting tank into which flowing water flowing out from the HOU is injected;
A CPI oil separator into which hydrophobic oil wastewater is introduced from the sump;
In the oil water separator consisting of an IAF oil separator in which hydrophilic oil wastewater is introduced from the sump tank,
The effluent of the CPI oil separator is introduced into the IAF oil separator, the treated water flowing out of the IAF oil separator is introduced into the CPI oil separator,
A monitoring pit attached to one side of the IAF oil separator to monitor the treatment of hydrophilic oil;
A floating oil tank into which floating oil flowing out of the IAF oil separator is introduced;
A floating oil separation tank having a plurality of partitions installed therein to finally separate oil components of the hydrophilic oil wastewater flowing out from the floating oil tank;
An oil catch tank for storing the oil flowing out from the floating oil separation tank and the oil flowing out from the CPI oil separator;
It provides a CPI and IAF combined oil separation device, characterized in that the vacuum car (Vacuum Car) for sucking the sludge of the oil component flowing out from the oil removal tank (Skimming Oil Separation Tank) is attached to the additional.

Using the oil / oil separator of the present invention, the disadvantages of the conventional oil / oil separator, that is, oil-water separation efficiency is low, the price is high, the processing capacity is small, and can solve the problem of exerting a specific oil only effect.

Hereinafter, the present invention will be described in more detail with reference to the drawings and embodiments.
1 is a view schematically showing the configuration of an oil-water separation apparatus flowing out from a heavy oil upgrading (HOU) system combining a CPI oil separator and an IAF oil separator of the present invention. As shown, the oil-water separator of the present invention includes a water collecting tank (not shown) into which oil-water flowing out of the HOU is injected;
The oil and water separator consisting of a CPI oil separator from which the hydrophobic oil waste water is introduced from the sump and an IAF oil separator into which the hydrophilic oil waste water is introduced, and the treated water flowing out of the CPI oil separator is introduced into the IAF oil separator. In addition, the treated water flowing out of the IAF oil separator flows into the CPI oil separator to increase the treatment efficiency.
Monitoring Pit is attached to one side of the IAF oil separator, which is a device to confirm the high and low level of water pollution by electric sense. Here, the treatment status of hydrophilic oil treated in the IAF oil separator is monitored. do.
On the other hand, hydrophilic oil wastewater from the IAF oil separator flows into the Kimming Oil Tank and then to the Kimming Oil Separation Tank, where the hydrophilic oil wastewater from the IAF oil separator is discharged. Finally separated.
The floating oil separation tank (Skimming Oil Separation Tank) is divided into a buffer section, a retention section and a separation section using a plurality of partitions. Sufficient residence time is allowed to separate the water and oil sludge. Preferably a residence time of about 20 hours is required. The sludge in the buffer section is then sent to a vacuum car using a screw pump.
The skimming oil separation tank (Skimming Oil Separation Tank) is a two-second separation of water and sludge, it is possible to remove the water reliably and the residence time is sufficient, so that not only the selective separation of water and sludge, but also oil tank (Oil Catcher) ) Can be operated stably.
Meanwhile, the skimming oil flowing out of the CPI oil separator and the skimming oil flowing out of the skimming oil separation tank are transferred to the oil catcher and finally separated from water and oil. Will end.
Figure 2 is a schematic diagram of a process for the oil removal effect experiment of the oil removal device combining the CPI oil separator and the IAF oil separator of the present invention. The oil and flow rate results for each process represented by numbers in FIG. 2 are shown in the following table.
[Table 1] Flow rate and oil content table by process

Component and Flow Rate One 2 3 4 5 6 Non-aqueous oil (ppm) 2,000 123 1,062 0.6 0 0.43 Hydrophilic oil (ppm) particle size (less than 2 micron) 30 18 24 4.8 0 3.4 Hydrophilic Oil (ppm) Particle Size (2 ~ 10micron) 600 62 331 16.6 0 11.7 Flow rate (m3 / hr) 75 75 150 150 63 213 Total Oil Content (ppm) 2,630 203 1,417 22 15.53
Referring to Table 1, the treated water which passed the process (4) of the oil removal apparatus combining CPI and IAF of the present invention was found to dramatically reduce the total oil of 2,630 ppm of oil to 22 ppm.

1 is a view schematically showing the configuration of an oil-water separation apparatus flowing out from a heavy oil upgrading (HOU) system combining the CPI and IAF of the present invention.
Figure 2 is a schematic diagram of a process for oil removal effect experiment of the oil removal device combined CPI and IAF of the present invention.

Claims (2)

A water collecting tank into which running water flowing out from the HOU flows; A CPI oil separator into which hydrophobic oil wastewater is introduced from the sump; In the oil water separator consisting of an IAF oil separator in which hydrophilic oil wastewater is introduced from the sump tank, The effluent of the CPI oil separator is introduced into the IAF oil separator, the treated water flowing out of the IAF oil separator is introduced into the CPI oil separator, A monitoring pit attached to one side of the IAF oil separator to monitor the treatment of hydrophilic oil; A skimming oil tank into which the skimming oil flowing out of the IAF oil separator flows; A floating oil separation tank having a plurality of partitions installed therein to finally separate oil components of the hydrophilic oil wastewater flowing out from the floating oil tank; An oil catch tank for storing the oil flowing out from the floating oil separation tank and the oil flowing out from the CPI oil separator; Oil separation device combined with a CPI oil separator and IAF oil separator, characterized in that the vacuum car (Vacuum Car) for suctioning the sludge of the oil component flowing out from the Kimming Oil Separation Tank is additionally attached In the method of separating the running water flowing out of the HOU, Flowing water from the HOU into the sump; Treating hydrophobic oil wastewater flowing out of the sump into a CPI oil separator and treating the hydrophilic oil wastewater flowing out of the sump into an IAF oil separator; The treated water flowing out of the CPI oil separator is introduced into the IAF oil separator, and the treated water flowing out of the IAF oil separator is introduced into the CPI oil separator; Introducing a skimming oil flowing out of the IAF oil separator into a skimming oil tank; Separating hydrophilic oil wastewater from the floating oil tank into a floating oil separation tank having a plurality of partitions therein and finally separating water and oil; The oil flowing out of the floating oil separation tank (Skimming Oil Separation Tank) and the oil flowing out of the CPI oil separator is characterized in that it consists of the step of introducing into the oil tank (Oil Catch), Monitoring Pit is attached to one side of the IAF oil separator to monitor the treatment status of hydrophilic oil, A method of separating oil comprising a CPI oil separator and an IAF oil separator, characterized in that the sludge flowing out from the floating oil separation tank (Skimming Oil Separation Tank) is sent to a suction vacuum car (Vacuum Car).

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