KR100978938B1 - Complex pollution groundwater purification method and device using integrated floating separation degassing tank - Google Patents

Abstract

PURPOSE: A complex contamination ground water cleaning processing method and a device thereof are provided to simplify facility, degas dissolution volatile organic compound, and remove the droplet included in the degassed gas with a demister. CONSTITUTION: A complex contamination ground water cleaning processing method comprises next steps. A micro bubble is injected into the contaminated underground water and is diffused to a flotation separate part(A) of a flotation deaerobic vessel(400). Oil is selected from a group consisting of light oil, kerosene, and petroleum hydrocarbon. A volatile organic compound is selected from a group consisting of BTEX(the general name of the benzene, toluene, ethylbenzene, xylene), phenol, trichloroethylene, and perchloroethylene. A suspended material and/or a n-hexane is floated and separated. The volatile organic compound is degassed.

Description

Compound pollution groundwater treatment method and device using integrated floating separation degassing vessel

The present invention relates to a standard method and apparatus for the treatment of complex soil groundwater using an integrated flotation degassing tank, and more specifically, from the group consisting of Al, Fe, Cr, Cd, Cu, Pb, Hg, As, Ni, and Zn. At least one heavy metal selected, at least one oil selected from the group consisting of diesel, kerosene, TPH, at least one volatile organic compound (VOCs) selected from the group consisting of BTEX, Phenol, TCE, PCE, After chemical coagulation sedimentation and removal of groundwater contaminated with various contaminants such as CN, n-Hexane extract pollutants and organic pollutants, the microbubbles generated by the low pressure microbubble generator are injected into the contaminated groundwater. At least one oil selected from the group consisting of diesel, kerosene and TPH, and at least one volatile organic group selected from the group consisting of BTEX, Phenol, TCE and PCE. Groundwater is separated and separated by VOCs, finely suspended suspended solids (SS) and / or n-Hexane extracts, and degassed by a degassing unit including a horizontal stripper and a demister filled with packing. A thin water film is formed to flow along the packing to widen the activation specific surface area, and the specific surface area is maximized to remove the degassing and droplets of VOCs. Finally, the activated carbon tower is adsorbed with activated carbon and exhausted. The present invention relates to a method and apparatus for treating contaminated groundwater using an integrated floating separation degassing tank capable of treating contaminants in a single facility.

The groundwater pollution pollution project in Korea began in earnest in 1996 when the Soil Environment Conservation Act was enacted and implemented.In particular, recently, social interest in groundwater and soil pollution has been raised, and the law is divided into soil pollution and groundwater pollution. In practice, however, if soil is contaminated, groundwater is generally contaminated. Soil purification and groundwater purification must be performed at the same time to achieve a complete purification goal.

As a treatment method, excavation of contaminated soil is carried out and carried out, and contaminated ground water is pumped out, or after injecting wells and extraction wells in situ, the pollutants are extracted and purified by injecting microorganisms, nutrients, and chemical treatment agents. It is developed and widely used.

The method of purifying contaminated groundwater from the above method is most commonly applied and evaluated as commercialized technology. As a related art related to wastewater treatment methods and devices including pumped contaminated groundwater treatment, The sedimentation and oil-water separation tank 100 to separate the oil and fine particles in the wastewater flowing into the 10-0566057 and the wastewater introduced from the sedimentation tank and the oil-water separation tank 100 at a constant water level A storage tank 200 to be stored as, the pressurized tank 300, the waste water pumped from the collection tank 200 is mixed with the air supplied from the ejector 310 and the chemical supplied from the chemical supply tank 320 and pressurized ), A line in which the pressurized tank 300 receives wastewater pressurized, receives chemicals from another chemical supply tank 330, and chemically reacts to form particles. (400), the floating tank 500, which is separated from the pollutant-containing particles and the treated water by receiving the wastewater containing the particles, and is located above the floating tank 500 to collect scum containing contaminants. Skimmer 520, the dewatering device 600, which was separated after dewatering the scum collected by the skimmer 520 using a dewatering cloth and a net, and received the treated water separated from the flotation tank 500 to the outside The discharge tank 700 and the reclaimed water tank 700, which are separated from the floatation tank 500, can be discharged and used as reused water for washing the car. The treated water separated from 500) is also configured to be supplied to the trench 50 for reprocessing, and is installed in a narrow place such as a car wash in a downtown area so that the wastewater treatment device can be effectively treated. have.

In addition, Korean Utility Model Registration No. 20-0162834 discloses a screen for filtering a contaminant having a predetermined size or more from wastewater, a sedimentation tank for sedimenting and separating inorganic materials having a predetermined specific gravity from the raw water passing through the screen, and inorganic materials having a predetermined specific gravity or more from the sedimentation tank. A flow control tank for collecting the separated raw water, an oil separation device for separating oil from the raw water introduced from the flow adjustment tank, and collecting and removing the separated oil, and a primary treatment water in which oil is separated and removed by the oil water separation device. The ozone oxidizer for ozone oxidation and the secondary treatment water ozonated by the ozone oxidizer are mixed with the pressurized water, and the scum is separated by floating contaminants below a certain specific gravity by generating microbubbles using a pressure difference. A scum separator for treating, a filter for filtering and adsorption the tertiary treated water from which scum is separated by the scum separating apparatus, Wastewater filtration treatment systems and methods are known which comprise a treated water tank for collecting the final treated water filtered off by the filter.

However, the prior art generally, as shown in Figure 1, sedimentation tank, oil and water separation tank, water collection tank, chemical reaction tank, sedimentation tank, scum tank, pressure flotation tank (including pressure tank, pump, ejector), air stripper, waste An oil storage tank, a sludge storage tank, a sand filtration tank, a VOCs adsorption tower, an activated carbon filtration tank, and various auxiliary facilities can be used to purify groundwater. However, these facilities require the enlargement of the purification treatment device, difficulty in salvage of sediment, and separation of oil fractions. Man-made adjustment, complexity of pressurization process, installation of pressurization system of VOCs removal facility and multi-stage unit of auxiliary facilities, etc. caused difficulties in operation and management due to increased installation cost, maintenance and operation cost, and inefficient to use in narrow purification site. There was an issue that was.

In addition, the pressurized floatation tank, air stripper, exhaust gas adsorption facility, and filtration tank, which are used to treat the remaining pollutants after the primary treatment of suspended solids and VOCs, are composed of individual processes to induce the enlargement of purification facilities and various units. Dissolved air floatation is a device that separates and removes suspended solids in the drainage to the surface of the water, and it is a pressurized tank that pressurizes the air, and an ejector that mixes air and liquid. Air stripper is a device that depressurizes VOCs by injecting pressurized air into a 1000 ~ 1200 mmAQ turbo blower into groundwater flowing through a multi-stage tray with 5-10mm holes. It is necessary, due to this there is a problem in that excessive running costs.

In addition, in order to completely purify VOCs, an activated carbon packing tower is installed and adsorbed, which has to be replaced periodically when a large amount of pollutants are adsorbed. Also, the advanced oxidation process uses strong acid oxidants to remove contaminants. Although it can be treated, there has been a problem in that a pyrolysis (300 ° C.) facility must be additionally installed in order to decompose ozone remaining after the treatment.

The present invention is to solve the above problems, consisting of at least one heavy metal selected from the group consisting of Al, Fe, Cr, Cd, Cu, Pb, Hg, As, Ni, Zn, and diesel, kerosene, TPH At least one oil selected from the group, at least one volatile organic compound (VOCs) selected from the group consisting of BTEX, Phenol, TCE, PCE, CN, n-Hexane extractable pollutants and organic pollutants After chemical condensation removal and removal of groundwater (deep water drainage, excavation drainage) contaminated by At least one oil selected from the group consisting of, at least one volatile organic compound (VOCs) selected from the group consisting of BTEX, Phenol, TCE, PCE, finely suspended suspended solids (SS) and / or normal hexane ( n-Hex ane) Floating and separating the extract material and forming a thin water film so that the ground water flows along the packing and the activation specific surface area is widened by a degassing part including a horizontal stripper filled with polypropylene packing and a demister. By removing the degassing and droplets of volatile organic chemicals (VOCs) with the maximum specific surface area, and finally adsorbing and activating them with activated carbon in the activated carbon tower, floating separation, VOCs degassing, and adsorption processes remove contaminants in one facility. It is an object of the present invention to provide a method and apparatus for treating a contaminated groundwater using an integrated floating separation and degassing tank that can be treated.

The present invention is a solution to the above problems, by injecting the microbubbles generated by the low pressure microbubble generating device in the contaminated groundwater, precipitates, suspended solids (SS) and contaminants precipitated by chemical reaction and flocculation, flotation separation degassing tank Diffusion to the flotation separation unit of at least one oil selected from the group consisting of light oil, kerosene, total petroleum hydrocarbon (TPH), BTEX (general of benzene, toluene, ethylbenzene, xylene), phenol (Phenol), Extract one or more volatile organic compounds (VOCs) selected from the group consisting of trichloroethylene (TCE), perchloroethylene (PCE), finely remaining suspended solids (SS) and / or normal hexane (n-Hexane) Flotation of the material; Floating separation-treated groundwater flows along the polypropylene packing layer of the horizontal stripper filled with polypropylene packing, and forms a thin water film to widen the activation specific surface area, and degassing volatile organic compounds (VOCs) with the maximum specific surface area. ; The degassing gas containing the volatile organic compounds (VOCs) flows along the polypropylene (PP) fabric layer (WOOL) of the demister filled with the polypropylene (PP) fabric layer (WOOL) and has an activation specific surface area. Forming a thin water film so as to widen and maximizing a specific surface area to remove fine droplets contained in the degassing gas; A method for solving the contaminated groundwater using an integrated floating separation degassing tank comprising the step of finally adsorbing and degassing the degassing gas passing through the demister from activated carbon tower to activated carbon is a problem solving means.

In addition, the low pressure microbubble generating device mixes groundwater and air fed back from the flotation separation unit of the flotation separation degassing tank to generate microbubbles of 2 to 20 μm or less at a pressure of 2Kg / ㎠ and flows it into the flotation separation degassing tank. The contaminated groundwater purification treatment method using an integrated floating separation and degassing tank characterized in that it is injected into the contaminated groundwater to be a problem solving means.

In addition, the present invention injects the microbubbles generated by the low pressure microbubble generating device into the contaminated groundwater in which sediment, suspended solids (SS) and contaminants are precipitated by chemical reaction and flocculation, and spread to the flotation separator of the flotation separation degassing tank. One or more oils selected from the group consisting of diesel, kerosene and petroleum hydrocarbons (TPH), BTEX (collectively benzene, toluene, ethylbenzene and xylene), phenol (Phenol) and trichloroethylene (TCE). ), Floating separation unit for floating separation of one or more volatile organic compounds (VOCs) selected from the group consisting of perchlorethylene (PCE), finely remaining suspended matter (SS) and / or n-Hexane extract; Floating separated groundwater flows along the packing of the horizontal stripper filled with packing and forms a thin water film to widen the activation specific surface area, degassing VOCs material to the maximum specific surface area, and includes the volatile organic compounds (VOCs). Degassed gas flows through the polypropylene (PP) fabric layer (WOOL) of the demister filled with the polypropylene (PP) fabric layer (WOOL) and forms a thin water film to increase the specific specific surface area. And a degassing unit for removing and removing the fine droplets contained in the degassing gas at maximum, and finally degassing the degassing gas passing through the demister by using activated carbon in the activated carbon tower. The complex pollution groundwater purification treatment apparatus using a separate degassing tank is a problem solving means.

In addition, the low pressure microbubble generating device mixes groundwater and air fed back from the flotation separation unit of the flotation separation degassing tank to generate microbubbles of 2 to 20 μm or less at a pressure of 2Kg / ㎠ and flows it into the flotation separation degassing tank. The contaminated groundwater purification treatment apparatus using an integrated floating separation and degassing tank, characterized in that it is injected into the contaminated groundwater to be a problem solving means.

According to the present invention, in the microbubble generating device supplied to the integrated flotation degassing tank, in the process of ultra-fast mixing by sucking water and air in the air, it can be converted into a gas-liquid mixture and an emulsion state and produce microbubbles of 2 to 20um or less. In addition, it is possible to simplify the installation by eliminating the equipment such as pressurization tank, pressurization pump, and ejector required in the existing pressure flotation tank, and the dissolved volatile organic compounds have the maximum specific surface area by the packing-type horizontal stripper. 114m ² / m ³ ) to be degassed at a low energy value, and the droplets contained in the degassing gas are removed by demister, and the volatilized contaminants are removed by the rear activated carbon adsorption tower, so that floating separation, degassing and adsorption are integrated. By simplifying the processing equipment to be processed by the system, there is a significant effect that can simultaneously process suspended matter and VOCs material at low cost.

1 is a conventional process of the contaminated groundwater treatment overall
Figure 2 is a plan view and a front view of the integrated flotation deaeration tank of the present invention
Figure 3 is a microbubble generating device photo of the present invention
Figure 4 is a microbubble micrograph of the present invention

The present invention injects the microbubbles generated by the low pressure microbubble generator into the contaminated groundwater where precipitates, suspended solids (SS) and contaminants are precipitated by chemical reaction and flocculation, and diffused into the flotation separator of the flotation separation degassing tank. At least one oil selected from the group consisting of kerosene, total petroleum hydrocarbon (TPH), BTEX (collectively benzene, toluene, ethylbenzene, xylene), phenol (Phenol), trichloroethylene (TCE), Flotation and separating one or more volatile organic compounds (VOCs), finely remaining suspended solids (SS) and / or normal hexane (n-Hexane) extracts selected from the group consisting of perchloroethylene (PCE); Floating separation-treated groundwater flows along the polypropylene packing layer of the horizontal stripper filled with polypropylene packing, and forms a thin water film to widen the activation specific surface area, degassing volatile organic compounds (VOCs) with the maximum specific surface area. ; The degassing gas containing the volatile organic compounds (VOCs) flows along the polypropylene (PP) fabric layer (WOOL) of the demister filled with the polypropylene (PP) fabric layer (WOOL) and has an activation specific surface area. Forming a thin water film so as to widen and maximizing a specific surface area to remove fine droplets contained in the degassing gas; The decontamination gas which has passed through the demister is finally treated by the adsorption process from the activated carbon tower to the activated carbon, and the complex pollution ground water purification treatment method using an integrated floating separation degassing tank is characterized by a technical configuration.

In addition, the low pressure microbubble generating device mixes groundwater and air fed back from the flotation separation unit of the flotation separation degassing tank to generate microbubbles of 2 to 20 μm or less at a pressure of 2Kg / ㎠ and flows it into the flotation separation degassing tank. The complex contaminated groundwater purification treatment method using an integrated floating separation degassing tank to be injected into the contaminated groundwater is characterized by its technical configuration.

In addition, the present invention injects the microbubbles generated by the low pressure microbubble generating device into the contaminated groundwater in which sediment, suspended solids (SS) and contaminants are precipitated by chemical reaction and flocculation, and spread to the flotation separator of the flotation separation degassing tank. One or more oils selected from the group consisting of diesel, kerosene and petroleum hydrocarbons (TPH), BTEX (collectively benzene, toluene, ethylbenzene and xylene), phenol (Phenol) and trichloroethylene (TCE). ), Floating separation unit for floating separation of one or more volatile organic compounds (VOCs) selected from the group consisting of perchlorethylene (PCE), finely remaining suspended matter (SS) and / or n-Hexane extract; Floating separated groundwater flows along the packing of the horizontal stripper filled with packing and forms a thin water film to widen the activation specific surface area, degassing VOCs material to the maximum specific surface area, and includes the volatile organic compounds (VOCs). Degassed gas flows through the polypropylene (PP) fabric layer (WOOL) of the demister filled with the polypropylene (PP) fabric layer (WOOL) and forms a thin water film to increase the specific specific surface area. And a degassing unit for removing and removing the fine droplets contained in the degassing gas at maximum, and finally degassing the degassing gas passing through the demister by using activated carbon in the activated carbon tower. The complex polluted groundwater treatment system using a separate degassing tank is characterized by the technical configuration.

In addition, the low pressure microbubble generating device mixes groundwater and air fed back from the flotation separation unit of the flotation separation degassing tank to generate microbubbles of 2 to 20 μm or less at a pressure of 2Kg / ㎠ and flows it into the flotation separation degassing tank. The complex contaminated groundwater purification treatment device using an integrated floating separation and degassing tank to be injected into the contaminated groundwater is characterized by its technical configuration.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The present invention relates to a method and apparatus for treating contaminated groundwater using an integrated floating separation degassing tank, and more specifically, selected from the group consisting of Al, Fe, Cr, Cd, Cu, Pb, Hg, As, Ni, and Zn. At least one heavy metal, at least one oil selected from the group consisting of diesel, kerosene, TPH, at least one volatile organic compound (VOCs) selected from the group consisting of BTEX, Phenol, TCE, PCE, CN After chemical coagulation sedimentation and removal of groundwater contaminated with various contaminants such as n-Hexane extract pollutant and organic pollutant, the microbubbles generated by low pressure microbubble generator are injected into the contaminated groundwater. One or more volatile organic compounds selected from the group consisting of light oil, kerosene, TPH, BTEX, Phenol, TCE, PCE, which are diffused into the flotation separation part of the separation degassing tank. Groundwater is packed by a degassing part that includes floating horizontal stripper and demister filled with VOCs, finely suspended suspended solids (SS) and / or n-Hexane extracts, and packed with packed horizontal strippers and demisters. A thin water film is formed so that the activation specific surface area is widened and the specific surface area is maximized to remove the degassing and droplets of the VOCs material, and finally, by adsorbing and evacuating the activated carbon from the activated carbon column to exhaust, floating separation, VOCs degassing, adsorption process The present invention relates to a complex pollution groundwater purification treatment method and apparatus using an integrated floating separation degassing tank capable of treating contaminants in one facility.

Conventionally, in order to process suspended matter and VOCs in contaminated groundwater, the gas and liquid are mixed in the ejector and pressurized (4-5Kg / ㎠) to form buoyancy by adhering to the remaining suspended matter, oil, and other contaminants. Pressurized floating tank (DAF) to remove by; An air stripper that injects pressurized air generated by a 1000-1200 mmAQ turbo blower into the groundwater flowing through a multi-stage tray having a 5-10 mm hole to degas VOCs by gas-liquid contact; A sand filtration tank for removing remaining suspended matter and maintaining the function of the rear activated carbon; Finally, contaminants in groundwater have been treated in each unit consisting of activated carbon filter to remove residual dissolved matter.

However, these devices are not economical and difficult to operate due to the large scale of equipment, difficulty in lifting sediment, artificial adjustment of separation oil fraction, complexity of press flotation process, and various facilities for removing VOCs. Floating equipment consists of flocculation equipment, pressurized float tank, pressurized pump, pressure tank, ejector (air compressor), and control panel.The air generated when converting to general atmospheric pressure after dissolving air by pressurizing the treated water It is the structure to separate the liquid by attaching and floating the bubble to the floating material (SS). It requires the pressurization equipment (TANK, PUMP) and the pressurization equipment control device. Also, there is a disadvantage in that it is consumed, and the maintenance is complicated due to the large number of peripheral devices. Cost.

In addition, the existing stripper should be a high-priced tower because water must flow into the top of the tower to maintain a 500-800 mm interlayer space in addition to the tray in order to induce the tray (4-5 stages) of the perforated plate. It is bubbled by the incoming air and falls down through the perforated plate, so it depends on the residence time rather than the specific surface area, which forms bubbling by injecting air at high pressure (1000-1200mmAQ / cm ² ). In addition to the supply pump, it is necessary to install a turbo fan, so that the operation cost is high, especially if the filter is not filtered at the front end, there is a possibility that the hole of the perforated plate may be blocked, which may cause a problem in efficiency. Since there should be a management layer of more than 4M there was a fatal problem that pay special attention to safety.

The integrated floating separation and degassing tank of the present invention which solves these problems induces separation of floating materials and remaining oil by injecting low pressure air into the low pressure microbubble generating device in the floating separator to generate microbubbles with pores of 2 to 20um. Contaminated water flows from the top to the bottom at a speed of 0.5 ~ 1m ³ / hr, and the ratio of liquid is 1:50 to the horizontal stripper filled with polypropylene packing filler with a specific surface area of 114m ² / m ³ . 60, air is injected from the bottom to the top at a flow rate of 0.3-1 m / sec to form a thin water film, thereby volatilizing and degassing the VOCs material.

The horizontal stripper filled with the polypropylene packing may be operated at a lower pressure (250 mmAQ) by about 20% less energy than the existing equipment, and after the horizontal stripper filled with the polypropylene packing, the polypropylene fabric ( It has a DEMISTER tower that removes droplets by filling PP Wool) to protect activated carbon. Finally, activated carbon adsorption tower is a device that removes degassed gas, and the flow rate can be maintained at 0.3 ~ 1m / sec. It can be maintained for more than 1 second, the oil, n-nucleic acid extracts, VOCs (TPH, BTEX, Phenol, PCE or TCE) and suspended solids in the groundwater contaminated with the integrated flotation degassing tank of the present invention can be separated, degassed, It can be removed simultaneously by the adsorption process.

Figure 2 is a plan view and a front view of the integrated floating separation degassing tank of the present invention, Figure 3 is a microbubble generating device picture of the present invention, Figure 4 is a microbubble micrograph of the present invention.

First, the low-pressure microbubble generating device immediately before the flotation separation part of the flotation separation degassing vessel attaches and manufactures a high-speed rotational impeller to the mixer motor in various forms. This is an emulsification by cavitation by mixing and grinding water and air. The emulsified mixed water forms small microbubbles at a small pressure. In the process of inhaling water and air in the high speed mixing process, the air converted into gas-liquid mixture and emulsion state is 10-20 microns (40%), 20-50 microns (40%), and 2-10 microns (20%). ) Can be composed of micro-bubbles, the maximum advantage is the need for equipment such as pressure tank, pressure pump, ejector required in the existing pressure flotation tank.

As shown in FIG. 3, the low pressure microbubble generating device 300 is a water and air in the air without the need for a pressurized tank, a pressurized pump (5000Kg / cm 2), an ejector, etc. In the process of ultra-fast mixing by inhaling and converting into gas-liquid mixing and emulsion state, it can generate 2-20um of micro bubbles generated at low pressure of 2Kg / ㎠ or less, and in a specific configuration of the motor 301, Blender 302 for fine-mixing air, discharge port 303 for discharging fine bubbles, pressure regulating valve 304 for adjusting the inside and discharge pressure of the mixer, water suction port 305 for sucking water, air in the air It is configured to include an air suction port 306 to suck.

4 is a microscopic measurement of the micro-bubbles generated in the actual low-pressure microbubble generating device can be seen that occurs in the size of several micro (1 ~ 6um).

As shown in FIG. 2, the integrated floating separation degassing vessel 400 injects the microbubbles generated by the low pressure microbubble generation device into the contaminated groundwater, and diffuses the floating separation portion A of the floating separation degassing vessel. One or more oils selected from the group consisting of diesel, kerosene, TPH, one or more volatile organic compounds (VOCs) selected from the group consisting of BTEX, Phenol, TCE, PCE, finely suspended suspended solids (SS) and Integral separation of the n-Hexane extracts and degassing the VOCs material by maximizing the specific surface area by a degassing unit including a packed stripper and a demister. Device.

Specific configuration of the integrated floating separation degassing tank 400, by using a low pressure microbubble generator to mix the groundwater and air fed back from the floating separation part (A) of the floating separation degassing tank at a pressure of 2Kg / ㎠ Induction pipe 401 into which the contaminated groundwater into which the microbubbles generated in a range of 20 μm or less are introduced into the floating separation unit A of the integrated floating separation degassing vessel, for the diffusion of a constant stream of inflow water introduced into the induction pipe Diffusion tube 402 to install a trumpet-shaped device to evenly distribute, induces the inlet to rise to the top, guide plate 403 which serves to prevent vortex, installed on the floating separator (A) Reducer 404 for starting scumblade, hood 405 for collecting gaseous substances generated in floating separator A, duct 406 for conveying gaseous substances collected in hood 405, floating separator (A) the upper formed Scumblade 407 to separate and scrape off the oil and water, the main body 408 to maintain the integrated floating separation degassing tank 400, prevents the scum and oil formed on the upper portion of the floating separation unit (A) to prevent excess flow Scuff skirt 409 acting as a baffle, air inlet 410 for stripping of dissolved volatile organic compound VOCs, and polypropylene packing as stripping part (B), which is the core of degassing of dissolved volatile organic compound VOCs. The filled lateral stripper 411 and the polypropylene fabric (PP Wool) are filled and processed to remove the droplets from the degassed dissolved volatile organic compound VOCs gas. As the device, the flow rate is maintained at 0.3 ~ 1m / sec and the contact time is at least 1 second activated carbon tower 413, the air introduced from the air inlet 410 to be sufficiently adsorbed Type stripper 411, DEMISTER 412, intake fan 414 to suck the air to pass through the activated carbon tower 413 to strip, discharge portion 415 for discharging the treated water, the floating separation unit (A The polypropylene packing of the lateral stripper 411 for stripping the treated water passed through the duct inlet 416, the floating separation portion (A) to the gaseous material collected in the suction unit (C) And a circulation pump 417 for spraying the bed.

In the horizontal stripper 411, when the treated water introduced through the floating separator A is sprinkled on the upper portion of the polypropylene packing through the circulation pump, the treated water is zigzag along the irregularly filled polypropylene packing layer. The film slowly flows downward to form a thin water film (larger surface water activation) with a long residence time, and the water film containing VOCs is in contact with the air by the operation of the air intake fan 414 to degas VOCs with a low energy value. The specific surface area of the polypropylene packing filler is 114m ² / m ³ , and the amount of 0.5-1m ³ / hr flows to form a thin water film.

At this time, the liquid ratio of the horizontal stripper 411 is 1:50 ~ 60, and the flow rate of air passing through the polypropylene packing layer is maintained in 0.3 ~ 1m / sec to be in sufficient contact with the water film (activation specific surface area) It is designed to operate at low pressure (250mmAQ) because of high porosity and low pressure loss, so the operating cost can be operated within 20% of tray type pressure (1200mmAQ) and is very stable because it is horizontal type rather than high tower type.

In the integrated floating separation degassing tank 400 of the present invention, the contaminated groundwater purifying process is described. The packing-filled horizontal stripper has a packing material of Polypropylene, a size of 2 INCH, a specific surface area of 114m ² / m ³ , The space rate is 94% and is randomly filled so that there is no blockage of contaminated groundwater flow. The treated water from which contaminants such as suspended substances are removed through the floating separation part flows into the storage tank at the bottom of the floating separation part and flows into the storage tank, and is sprayed on the horizontal stripper 411 by the circulation pump 417. It zigzags along the layer and forms a water film, so that the activation specific surface area becomes large and is in gas-liquid contact with air.

Since the horizontal stripper is not applied to the height because it depends on the groundwater flow rate and the residence time, the height of the tower can be reduced to about 20% and can be manufactured to about 1m, thereby making it easy to maintain and high porosity, thus causing clogging. In addition, the pressure loss was reduced to 20% compared to the existing facilities (1000 ~ 1200mmAQ) with 250mmAQ, reducing power consumption, and the installation scale was reduced to 1/2 of the existing installation. The cost is reduced.

 The activated carbon tower 413 is located immediately behind the demister 412, and the volatilized VOCs are adsorbed with activated carbon having a size of 8 to 12 MESH and a specific surface area of 900 to 1400 m 2 / g, and water is introduced into the activated carbon tower. In order to prevent this, a demyster filled with PP wool was installed just before the activated carbon tower to remove droplets so that the activated carbon can be stably adsorbed. Table 1 compares the conventional apparatus and the integrated floating separation degassing tank according to the present invention.

Facility comparison  division Conventional device Device of the Invention Treatment method Filtration, Pressurization, Filtration, Degassing, Adsorption Low pressure flotation, degassing, adsorption rescue Pressurization equipment (ejector, pressure pump, pressure tank), pressurization Air stripper (turboburro, stripper pump). Individual process such as adsorption equipment Floating tank (Miniature gun generator). Air stripper. All adsorption equipment pollutant
Elimination differences Pressurized water generated at high pressure is contacted with groundwater to remove contaminants, and VOCs etc. are removed by a separate stripper at the back. In addition, the VOCs separated from the stripper are removed by installing an adsorption tower. Contaminants are removed by contacting bubbles generated from microbubble generators with groundwater, and VOCs, etc. Treatment pollutant Suspended solids, VOCs Suspended solids, VOCs, NVOCs

300: low pressure micro bubble generator 301: motor
302: blender 303: discharge port
305: water intake 306: air intake
400: floating separation degassing tank 401: induction pipe
402: diffusion tube 403: guide plate
407: scumblade 409: scum skirt
410: air inlet 411: horizontal stripper
412: DEMISTER 413: activated carbon tower

Claims (12)

At least one selected from the group consisting of light oil, kerosene and total petroleum hydrocarbons (TPH) by injecting the microbubbles generated by the low pressure microbubble generator into the contaminated groundwater and spreading them to the flotation separation section of the flotation separation degassing tank. One or more volatile organic compounds (VOCs) selected from the group consisting of oil, BTEX (collectively benzene, toluene, ethylbenzene, xylene), phenol (Phenol), trichloroethylene (TCE), and perchloroethylene (PCE) , Floating separation of finely remaining suspended solids (SS) and / or normal hexane (n-Hexane) extract; Floating separation-treated groundwater flows along the polypropylene packing layer of the horizontal stripper filled with polypropylene packing, and forms a thin water film to widen the activation specific surface area, degassing volatile organic compounds (VOCs) with the maximum specific surface area. ; The degassing gas containing the volatile organic compounds (VOCs) flows along the polypropylene (PP) fabric layer (WOOL) of the demister filled with the polypropylene (PP) fabric layer (WOOL) and has an activation specific surface area. Forming a thin water film so as to widen and maximizing a specific surface area to remove fine droplets contained in the degassing gas; Finally, the degassing gas passing through the demister is adsorbed and finally discharged from the activated carbon tower into the activated carbon, and the contaminated groundwater purification treatment method using an integrated floating separation degassing tank is characterized in that it comprises a.
The method of claim 1,
The low pressure microbubble generating device mixes groundwater and air fed back from the flotation separation unit of the flotation separation degassing tank to generate microbubbles of 2 to 20 μm or less at a pressure of 2Kg / cm 2 and flows into the flotation separation degassing tank. Complex pollution groundwater purification method using an integrated floating separation and degassing tank characterized in that it is injected into the contaminated groundwater
The method according to claim 1 or 2,
The horizontal stripper is filled with a polypropylene packing having a specific surface area of 114 m ² / m ³ , and contaminated water flows from the top of the polypropylene packing to the bottom at a speed of 0.5 to 1 m ³ / hr, and has a liquid ratio. 1:50 ~ 60, air is injected from the bottom to the top at a flow rate of 0.3-1m / sec to form a thin water film, the complex pollution ground water purification treatment method using an integrated floating separation degassing tank characterized in that the volatilization and degassing of VOCs material
The method of claim 3,
The horizontal stripper is a 250mmAQ pressure to reduce the energy of 20% compared to the conventional multi-stage tray tower stripper pressure (1000-1200mmAQ / cm ² ) of the integrated plate using an integrated floating separation degassing tank characterized in that Polluted Groundwater Purification Method
The method according to claim 1 or 2,
The activated carbon tower is filled with activated carbon having a size of 8 to 12 MESH, specific surface area of 900 to 1400 m 2 / g, characterized in that the flow rate of the degassed gas is 0.3 to 1 m / sec, the contact time is maintained for at least 1 second. Treatment Method for Complex Polluted Groundwater Using Integrated Flotation Separation Tank
At least one selected from the group consisting of light oil, kerosene and total petroleum hydrocarbons (TPH) by injecting the microbubbles generated by the low pressure microbubble generator into the contaminated groundwater and spreading them to the flotation separation section of the flotation separation degassing tank. One or more volatile organic compounds (VOCs) selected from the group consisting of oil, BTEX (collectively benzene, toluene, ethylbenzene, xylene), phenol (Phenol), trichloroethylene (TCE), and perchloroethylene (PCE) , Floating separator for floating separation of finely remaining suspended matter (SS) and / or normal hexane (n-Hexane) extract quality; Floating separated groundwater flows along the polypropylene packing layer of the horizontal stripper filled with polypropylene packing, and forms a thin water film to widen the activation specific surface area, degassing volatile organic compounds (VOCs) with the maximum specific surface area, The degassing gas containing the volatile organic compounds (VOCs) flows along the polypropylene (PP) fabric layer (WOOL) of the demister filled with the polypropylene (PP) fabric layer (WOOL) and has an activation specific surface area. Degassing unit for forming a thin water film so as to widen, remove the fine droplets contained in the degassing gas to maximize the specific surface area, and then the degassing gas passing through the demister is adsorbed to the activated carbon in the activated carbon tower and exhausted. Complex pollution groundwater purification treatment apparatus using an integrated floating separation degassing tank characterized in that the configuration
The method of claim 6,
The low pressure microbubble generating device mixes groundwater and air fed back from the flotation separation unit of the flotation separation degassing tank to generate microbubbles of 2 to 20 μm or less at a pressure of 2Kg / cm 2 and flows into the flotation separation degassing tank. Complex contaminated groundwater purification treatment system using integrated floating separation and degassing tank characterized in that it is injected into the contaminated groundwater
The method of claim 6,
The low pressure microbubble generating device includes a motor; A blender that refines and mixes water and air therein; A discharge port for discharging fine bubbles; A pressure regulating valve for controlling the inside of the mixer and the discharge pressure; A water suction port for sucking water; Air pollution inlet for sucking air in the air; complex pollution groundwater purification treatment apparatus using an integrated floating separation degassing tank characterized in that it comprises a
The method according to claim 6 or 7,
The horizontal stripper is filled with a polypropylene packing having a specific surface area of 114 m ² / m ³ , and contaminated water flows from the top of the polypropylene packing to the bottom at a speed of 0.5 to 1 m ³ / hr, and has a liquid ratio. 1:50 ~ 60, air is injected from the bottom to the top at a flow rate of 0.3-1m / sec to form a thin water film, complex pollution ground water purification treatment apparatus using an integrated floating separation degassing tank characterized in that the volatilization and degassing of VOCs material
The method of claim 8,
The horizontal stripper is a 250mmAQ pressure to reduce the energy of 20% compared to the conventional multi-stage tray tower stripper pressure (1000-1200mmAQ / cm ² ) of the integrated plate using an integrated floating separation degassing tank characterized in that Polluted Groundwater Purification System
The method according to claim 6 or 7,
The activated carbon tower is filled with activated carbon having a size of 8 to 12 MESH, specific surface area of 900 to 1400 m 2 / g, characterized in that the flow rate of the degassed gas is 0.3 to 1 m / sec, the contact time is maintained for at least 1 second. Complex pollution groundwater purification equipment using integrated floating separation and degassing tank
The method of claim 6,
The flotation separation degassing tank may include an induction pipe through which the contaminated ground water into which the microbubbles generated by mixing the groundwater and air fed back from the flotation separation part of the flotation separation degassing tank is introduced into the flotation separation part; Diffusion tube to install a trumpet-shaped device for even distribution of the constant water flow of the influent flowing into the induction pipe to ensure even distribution; An induction plate to guide the inflow to the upper part and to prevent vortex; A speed reducer for starting a scum blade installed on the floating separator; A hood collecting gaseous substances generated in the flotation separator; A duct for conveying the gaseous material collected in the hood; A scumblade that separates the scum and oil formed on the floating separator from water and scrapes it off; Main body to maintain the integral floating separation degassing tank; A scum skirt that serves as a baffle to prevent the scum and oil formed on the floating separation unit from being overflowed; An air inlet for stripping dissolved volatile organic compounds (VOCs); Horizontal stripper filled with polypropylene packing as a stripping part which is the core of degassing dissolved volatile organic compounds (VOCs); DEMISTER which removes droplets from degassed dissolved volatile organic compounds (VOCs) gas by processing and filling polypropylene fabrics (PP Wool); Activated carbon tower to adsorb VOCs of the degassed gas to clean exhaust gas flow rate is 0.5m / sec and the contact time is maintained for more than 1 second to sufficiently adsorb; An intake fan to draw air by causing air introduced from the air inlet to pass through the horizontal stripper, the DEMISTER, and the activated carbon tower; A discharge part for discharging the treated water; A duct inlet unit for introducing a gaseous substance collected in the flotation separator into an adsorption unit; Multiple pollution groundwater purification apparatus using an integrated floating separation degassing tank, characterized in that comprises a; circulating pump for spraying the polypropylene packing layer of the horizontal stripper for stripping of the treated water passed through the floating separation unit

Images