KR20130090243A - Hybrid system for processing particle materials, volatile organic compounds, and bad smells concurrently - Google Patents

Abstract

PURPOSE: A hybrid system for simultaneously treating fine dust, volatile organic compounds and bad smells is provided to be able to remove PM 2.5 fine dust according to the environment regulation, and to be able to increase the removal efficiency by controlling the flow of volatile organic compounds. CONSTITUTION: A hybrid system for simultaneously treating fine dust, volatile organic compounds and bad smells comprises a dust collection module (10) in which fine dust and volatile organic compounds are flowed in; a filter module (20) comprising a dust filter removing PM 2.5 fine dust and a concentration filter controlling the flow volume of fine dust and volatile organic compounds; a UV module (30) irradiating UV to decompose the volatile organic compounds and bad smells; a concentration rotor module (40) equipped with a disc coated with low temperature oxidization catalyst for adsorbing and concentrating the residual volatile organic compounds and bad smells after the UV irradiation; and a ventilation module (50) exhausting the gas with fine dust, volatile organic compounds and bad smells removed to outside.

Description

TECHNICAL FIELD [0001] The present invention relates to a hybrid system for simultaneous treatment of fine dust, volatile organic compounds, and odors. BACKGROUND OF THE INVENTION 1. Field of the Invention [0002]

The present invention is a hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odor, more specifically, volatile organic compounds generated in the fine dust, such as PM2.5 generated in large-scale, small and medium-sized businesses, such as petrochemical complex, industrial complex and The present invention relates to a hybrid system for simultaneous treatment of fine dust, volatile organic compounds, and odors, by using a heater of 400 or less without using a high-temperature incinerator of 700 or more by removing and removing odors.

Generally, the exhaust gas emitted from petroleum chemical companies and paint manufacturers in the refining process and painting process is accompanied by volatile organic compounds (VOCs) as well as bad odors and fine dusts as pollutants that pollute the surrounding environment It may cause bad odor, respiratory disorder or smog.

In domestic law, petroleum chemicals, organic solvents and other substances among hydrocarbons with a radia- tion pressure of 10.3 kilopascals (or 1.5 psia) or higher are substances that are notified by the Minister of Environment in consultation with the heads of relevant central administrative agencies (1)), and 37 substances and products such as benzene, butadiene and gasoline are regulated under the Ministry of Environment Notification No. 2001-36 (2001.3.8).

As a method of removing such volatile organic compounds (VOCs), combustion oxidation technology, adsorption technology, biochemical treatment technology, etc. have been proposed. Among them, RTO (Regenerative Thermal Oxidizer) and regenerative catalytic combustion Regenerative catalytic oxidizers (RCOs) have been widely used.

However, in the regenerative combustion facility and the regenerative catalytic combustion method, the incineration and direct oxidation of the volatile organic compound (VOC) gas occurs at a temperature above the ignition point, and thus, the temperature in the combustion chamber must be operated at 750 to 1200. Due to the high temperature of the combustion chamber, fire and other safety issues are raised.

The combustion chamber 112 and the lower auxiliary chamber 113 are partitioned by the partition plate 111 provided in the inside of the prior art document 10-0530470 "noxious gas combustion facility" shown in FIG. 1, A main body 110 in which a plurality of connecting ducts 114 connecting the combustion chamber 112 and the auxiliary chamber 113 are vertically provided and an intake line 115 and an exhaust line 116 are formed on the peripheral surface; A storage material 120 provided in the combustion chamber 112; And a distributor 130 installed inside the auxiliary chamber 113 of the main body 110 and sequentially connecting the intake line 115 and the exhaust line 116 to different connecting ducts 114.

The connection duct 114 of the main body 110 extends from the lower surface of the main body 110 to the circumferential surface of the distributor 130 and is connected to a process including volatile organic compounds (VOC) supplied by the distributor 130 Gas to the internal combustion chamber 112 or discharges the exhaust gas combusted in the combustion chamber 112 to the distributor 130. [ The intake line 115 is formed by installing an intake pipe 115a through the central portion of the combustion chamber 112 of the main body 110 in the vertical direction and connecting the lower end of the intake pipe 115 to the upper surface of the distributor 130, The exhaust line 116 is formed by forming an exhaust port 116a on one side of the auxiliary chamber 113 of the main body 110.

The heat storage material 120 is made of a breathable material and is heated as it is burned while passing through the heat storage material 120 and the processing gas containing volatile organic compounds (VOC) supplied through the distributor 130 is heated, And the processing gas is smoothly and completely burned.

The distributor 130 includes an outer case 131 embedded in the diaphragm 111 such that an upper end thereof is connected to the intake line 115 and an outer case 131 installed inside the outer case 131, A rotating body 132 for selectively connecting the exhaust line 116 to the other connecting ducts 114 and a rotating shaft 133 coupled to the rotating body 132 and connected to the driving motor 134.

The outer case 131 is formed in a cylindrical shape and has a plurality of communication holes 131a connected to the connecting duct 114 on its circumference and an opening 131b opened to the auxiliary chamber 113 at a lower portion thereof. .

The rotating body 132 includes an intake connecting portion 132a which is opened in an upper and a lateral direction and is connected to the communication hole 131a of the intake line 115 and the outer case 131, And an exhaust connection part 132b for connecting the line 116 and the communication hole 131a of the outer case 131 is formed. The intake connection part 132a and the exhaust connection part 132b are connected to different communication holes 131a among a plurality of communication holes 131a formed in the outer case 131, The two process gases supplied to the inside of the outer case 131 are supplied to the combustion chamber 112 of the main body 110 through the communication hole 131a and the connecting duct 114 connected thereto after the intake connection portion 132a is taken The exhaust gas generated by burning the process gas in the combustion chamber 112 is exhausted to the lower portion of the outer case 131 through the connecting duct 114 and the exhaust connection portion 132b and is exhausted to the outside through the exhaust line 116 To be discharged.

The rotating body 132 is rotated together with the rotating shaft 133 to function as a switching valve for continuously connecting the intake connection portion 132a and the exhaust connection portion 132b to the other connection ducts 114, So that the connecting duct 114 performs the functions of the intake passage and the exhaust passage alternately.

Accordingly, when the process gas containing volatile organic compounds (VOC) is supplied through the intake line 115 while rotating the rotary shaft 133 by the drive motor 134, the process gas is supplied to the intake port 132a, The exhaust gas is introduced into the combustion chamber 112 through the connecting duct 114 connected to the exhaust connection port 132a and is burnt and exhausted to the exhaust line 116 through the connection duct 114 connected to the exhaust connection part 132b. do.

In addition, as the rotating body 132 is rotated, and each connection duct 114 alternately performs the function of the intake passage and the function of the exhaust passage, the suction and exhaust of the processing gas alternately through all the connection ducts 114. Since it is carried out, the combustion heat generated when the process gas is burned to be smoothly transferred to the newly supplied process gas, there are a number of disadvantages in that the use of a high temperature incinerator.

Korean Patent No. 10-0530470 "Hazardous Gas Combustion Equipment"

As described above, an object of the present invention is to provide a hybrid system capable of simultaneously treating fine dust, volatile organic compounds, and odors with only a heater of 400 or less without using a high-temperature incinerator that may cause a fire.

According to an aspect of the present invention, there is provided a dust collecting apparatus including a dust collecting module to which fine dust and a volatile organic compound are introduced, a dust filter for removing PM 2.5 fine dust, and a concentration filter for controlling a flow amount of residual fine dust and a volatile organic compound A concentrating rotor module including a disk coated with a low temperature oxidation catalyst for adsorbing and concentrating residual volatile organic compounds and odors after UV irradiation, And a ventilation module for venting the removed gas to the outside. The present invention also provides a hybrid system for the simultaneous treatment of fine dust, volatile organic compounds and odors.

Hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odor according to the present invention can not only remove PM 2.5 fine dust in accordance with environmental regulations, but also increase the removal efficiency through the flow control of volatile organic compounds, It is possible to provide a highly productive hazardous gas removal system capable of simultaneously removing volatile organic compounds and odors using a heater of 400 or less.

1 is a side view showing a conventional noxious gas combustion device.
2 is a schematic diagram of a hybrid system for simultaneous treatment of fine dust, volatile organic compounds, and odors as an embodiment of the present invention.
3 is a detailed view of a concentrating rotor module according to the present invention.

According to an aspect of the present invention, there is provided a dust collecting module including a dust collecting module for introducing fine dust and a volatile organic compound, a dust filter for removing PM 2.5 fine dust, a concentration controlling the flow amount of residual fine dust and a volatile organic compound, A UV module 30 for irradiating ultraviolet rays to decompose volatile organic compounds and odors and a UV module 30 for adsorbing and concentrating residual volatile organic compounds and odors after UV irradiation, The present invention provides a hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors, characterized by comprising a concentrated rotor module (40) having a disk and an exhaust module (50) for exhausting the removed gas to the outside .

The dust collecting module 10 is installed in a waste gas exhaust part such as a petroleum refining process and collects fine dust and volatile organic compounds.

The filter module 20 comprises a dust filter 21 for removing PM 2.5 fine dust and a concentration filter 23 for controlling the amount of residual fine dust and volatile organic compounds flowing through the dust filter 21, But it is preferable that the ultrafine fiber layer is formed on the polyester base.

In particular, a prefilter composed of a long fibrous nonwoven fabric may be further provided at the front end of the microfine fiber layer.

The concentration filter 23 controls the flow amount of residual fine dust and the volatile organic compound to prevent the waste gas flowing into the UV module 30 from being transferred to the UV module 30, This is to prevent the load from being removed.

On the other hand, the concentration filter 23 has a structure in which the damper can be opened and closed by the hydraulic pressure therein, and during the normal operation, the waste gas flowing into the UV module 30 by opening the damper, the waste gas flowing in When the user exceeds the preset hydraulic pressure, the amount of residual fine dust and volatile organic compounds can be controlled by opening the damper only to the proper opening and closing position by the hydraulic pressure.

In addition, the concentration filter 23 preferably further includes a sensor unit for detecting the pressure of the waste gas introduced therein and a controller for operating the hydraulic pressure.

The UV module 30 is for pulverizing volatile organic compounds and odors by ultraviolet irradiation, and has a structure in which a plurality of UV lamps are disposed in parallel in the longitudinal direction, and a plurality of UV lamps positioned in this way are stacked.

In particular, it is preferable to provide a reflector on four side edges of the inner side of the UV module 30 to induce the irradiation amount to be maximized when the UV lamp is operated.

On the other hand, in the UV module 30 to remove volatile organic compounds (VOC) in which at least one metal selected from Mg and Ge is impregnated into boehmite on the inner surface in order to further increase the grinding efficiency of fine dust and volatile organic compounds due to UV irradiation. It is good to coat the catalyst.

In addition, the catalyst for removing the volatile organic compound (VOC) is preferably in the amount of 0.1 to 30% by weight of the metal to 100g weight of boehmite.

The concentrating rotor module 40 is equipped with a disk coated with a low temperature oxidation catalyst for adsorbing and concentrating residual volatile organic compounds and odors after UV irradiation in the UV module, In the front end, a heater unit 43 of not more than 400 is provided to heat the volatile organic compounds to facilitate decomposition. The volatile organic compounds are adsorbed and concentrated by the rotor disk and are crushed through a low temperature oxidation catalyst.

Particularly, the low-temperature oxidation catalyst is preferably a catalyst for removing volatile organic compounds (VOC) in which boehmite is impregnated with at least one metal selected from transition metals on the inner surface.

A branching fan 41 is provided at the front end of the heater unit 43 of the condensing rotor module 40 so that the waste gas can be smoothly introduced into the heater unit 43.

On the other hand, it is preferable that the cooling unit 47 is formed at the rear end of the condensing rotor module 40 so as to cool the waste gas from which residual fine dust and volatile organic compounds have been removed by 95% or more,

In addition, the rear end filter 47 is provided at the rear end of the cooling unit 47 of the concentrated rotor module 40 to further adsorb residual fine dust and volatile organic compounds, thereby further improving the function of the concentrated rotor module 40. It can be.

A gear motor 45 is attached to either end of the rotary shaft as the rotor disk drive means of the concentrated rotor module 40. The gear motor 45 has a plurality of teeth formed on the circumferential surface thereof, .

The exhaust module 50 is operated by a fan for discharging the waste gas removed through the dense rotor module 40 to the outside.

The above description is only one preferred embodiment of the hybrid system for the simultaneous treatment of the fine dust, the volatile organic compound and the odor according to the present invention, and the present invention is not limited to the above- It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

10: dust collecting module 20: filter module
30: UV module 40: enrichment rotor module
50: Exhaust module

Claims (8)

The filter module consists of a dust collecting module that introduces fine dust and volatile organic compounds, a dust filter that removes PM 2.5 fine dust, and a concentration filter that controls the flow of residual fine dust and volatile organic compounds. And a concentrated rotor module having a pulverized UV module and a disk coated with a low temperature oxidation catalyst for adsorbing and concentrating residual volatile organic compounds and odor after the UV irradiation, and an exhaust module for exhausting the removed gas to the outside. Hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors
The hybrid system of claim 1, wherein the dust filter is formed in a bent shape and a filled shape, but a superfine fiber layer is formed on a polyester base. The method of claim 2,
Hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors, characterized in that the pre-filter consisting of a long fiber nonwoven fabric is added to the front of the ultra-fine fiber layer of the dust filter 4. The method according to any one of claims 1 to 3,
The concentration filter is configured in such a way that the damper can be opened and closed by the hydraulic pressure inside, so that the residual fine dust by allowing the damper to open only to the proper opening and closing position by the hydraulic pressure when the incoming waste gas exceeds the proper hydraulic pressure set by the user in advance. And a hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors, which controls the flow rate of volatile organic compounds. 5. The method of claim 4,
The concentration filter is a hybrid system for the simultaneous treatment of fine dust, volatile organic compounds and odors further comprises a sensor unit for detecting the pressure of the waste gas flowing in and a hydraulic pressure control unit
The method of claim 1,
A hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors, characterized in that the reflector is installed on the four side edges on the inside of the UV module to induce maximum radiation dose when the UV lamp is operated. 5. The method of claim 4,
The UV module is coated with a catalyst for removing volatile organic compounds (VOC) in which at least one metal selected from Mg and Ge is impregnated into boehmite on the inner surface in order to further increase the grinding efficiency of fine dust and volatile organic compounds according to UV irradiation. Hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors 5. The method of claim 4,
The concentrated rotor module is provided with a heater portion of 400 or less to facilitate the decomposition by heating the volatile organic compound introduced, and the rotor disk is volatile organic compound (VOC) impregnated with boehmite at least one metal selected from transition metals on the inner surface The removal catalyst is coated, and a branch fan is provided at the front end of the heater unit to smoothly inflow the waste gas into the heater unit, and a cooling unit is formed at the rear end of the concentrated rotor module, and a rear end filter is included at the rear end of the cooling unit. Hybrid system for simultaneous treatment of fine dust, volatile organic compounds and odors

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