KR101539346B1 - Exhaust gas treatment package system - Google Patents

Abstract

Provided is an exhaust gas treatment package system which comprises: an inlet unit into which exhaust gas is introduced; a sensor unit for measuring a flow rate of exhaust gas flowing into the inlet unit and concentrations of dust, SO_x and NO_x in the exhaust gas; an exhaust gas treatment package which is coupled to the inlet unit and removes air pollutants in exhaust gas transferred from the inlet unit; and a discharge unit which is coupled to the exhaust gas treatment package and discharges exhaust gas passing through the exhaust gas treatment package. The exhaust gas treatment package includes: a main flow path for connecting the inlet unit and the discharge unit; an electrostatic precipitation module which is connected to the main flow path and has a plurality of electrostatic precipitation units for removing dust in the exhaust gas; a desulfurization module which is connected to the main flow path and has a plurality of desulfurization units for removing SO_x in the exhaust gas; a denitrification module which is connected to the main flow path and has a plurality of denitrification units for removing NO_x in the exhaust gas; and a control unit which controls whether the exhaust gas flows from the main flow path to the electrostatic precipitation units of the electrostatic precipitation module, the desulfurization units of the desulfurization module, and the denitrification units of the denitrification module, depending on the flow rate of exhaust gas and the concentrations of dust, SO_x and NO_x in the exhaust gas, which are measured in the sensor unit.

Description

[0001] EXHAUST GAS TREATMENT PACKAGE SYSTEM [0002]

The present invention relates to an exhaust gas treatment package system.

Atmospheric emissions include pollutants such as SOx and NOx. In the case of a treatment facility for treating such pollutants, it is important to consider the size of the discharge facility (opening area, capacity, power, quantity, etc.) The specifications of various types of processing facilities (electrostatic precipitator, catalytic reduction unit, desulfurization facility, denitrification facility, etc.) for processing have been determined. In addition, most of these processing facilities are designed and manufactured based on large-scale power generation facilities and manufacturing facilities.

In recent years, however, standards for the management of air pollutants such as ultrafine dust, odorous substances and harmful gases have been strengthened, and the need for research and development to solve them is increasing. In addition, developing countries need to develop air pollutant abatement equipment in medium or small-scale facilities in rural or underdeveloped countries where large-scale treatment facilities are difficult to enter.

The inventors of the present invention have made long efforts to solve the above problems and have completed the present invention.

A related art is Korean Registered Patent No. 10-0382869 (registered on Apr. 22, 2003, exhaust gas treatment system).

An object of the present invention is to provide a process module for an air pollutant treatment apparatus of an exhaust gas by unitizing it with a unit unit and to combine the quantity and order of the unit unit and the processing module according to the treatment capacity of an air pollutant and an object to be treated, And to provide an exhaust gas treatment package system for treating air pollutants in the gas.

In addition, the processing modules for treating air pollutants are constituted by unit units of the same processing capacity, so that the same flow rate can be processed in each processing module.

In addition, each of the processing modules is housed in one container, efficiently utilizes the space, and provides an exhaust gas processing package system capable of moving the processing facility easily and simply by moving the container.

On the other hand, other unspecified purposes of the present invention will be further considered within the scope of the following detailed description and easily deduced from the effects thereof.

According to an aspect of the present invention, there is provided an exhaust gas purifying apparatus comprising: A sensor unit for measuring a flow rate of exhaust gas flowing into the inflow portion and a concentration of dust, SOx, and NOx in the exhaust gas; An exhaust gas treatment package coupled to the inlet portion to remove atmospheric contaminants from the exhaust gas delivered from the inlet portion; And a discharge unit coupled to the exhaust gas treatment package to discharge exhaust gas passing through the exhaust gas treatment package, the exhaust gas treatment package including: a main flow path connecting the inflow part and the discharge part; An electric dust collecting module connected to the main flow path and composed of a plurality of electric dust collecting unit units for removing dust from the exhaust gas; A desulfurization module connected to the main flow path and composed of a plurality of desulfurization unit units for removing SOx from the exhaust gas; A denitration module connected to the main flow channel and composed of a plurality of denitration unit units for removing NOx from the exhaust gas; The desulfurization unit of the desulfurization module, the denitration unit of the denitration module, the denitration unit of the desulfurization module, the denitration unit of the desulfurization module, and the denitration unit of the denitration module, And a control unit for controlling whether or not the exhaust gas is introduced into the exhaust gas processing system.

At this time, each of the electrostatic dust collecting unit unit, the desulfurizing unit unit, and the denitration unit unit may be connected to the main flow path.

Further, the electric dust collecting unit unit, the desulfurization unit unit, and the denitration unit unit are standardized so as to treat the same flow rate.

Each of the electrostatic dust collecting module, the desulfurization module, and the denitration module may include the same number of the electrostatic dust collection unit, the desulfurization unit, and the denitration unit.

The present invention further includes a plurality of regulating valves provided in the main flow path and regulating whether the exhaust gas flows into the electric dust collecting unit unit, the desulfurizing unit unit, and the denitration unit unit from the main flow path, The control unit may control the control valve.

The electrostatic dust collecting module, the desulfurization module, and the denitration module may be arranged in the left-right direction or in the vertical direction.

Further, the present invention may further include a container for receiving the exhaust gas treatment package therein.

The electrostatic dust-collecting unit unit, the desulfurization unit unit, and the denitration unit unit may be equally formed with a capacity of the exhaust gas to be treated ranging between 1 m ³ / min and 5 m ³ / min.

According to the present invention, an apparatus for treating an air pollutant of an exhaust gas is standardized as a unit unit to constitute a processing module, and the number and sequence of such unit units and processing modules are combined according to the treatment capacity of the air pollutant and the object to be treated, Air pollutants in the gas can be treated.

Further, the processing modules for treating the air pollutants are constituted by unit units of the same processing capacity, so that the same flow rate can be processed in each processing module.

Also, each processing module can be accommodated in one container, efficiently utilize the space, and the processing facility can be moved easily and simply by moving the container.

Even if effects not specifically mentioned in the specification of the present invention are incorporated, the provisional effects expected by the technical features of the present invention are treated as described in the specification of the present invention.

FIG. 1 and FIG. 2 are conceptual views of basic principles in which an exhaust gas treatment package system according to the present invention is conceived.
FIG. 3 is a diagram illustrating combinations of unit units that can be variously combined according to an embodiment of the present invention.
4 is a view of an exhaust gas treatment package system according to an embodiment of the present invention.
5 is a view of an exhaust gas treatment package system according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Exemplary embodiments of an exhaust gas treatment package system according to the present invention will now be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding elements throughout. A duplicate description will be omitted.

TECHNICAL FIELD The present invention relates to an exhaust gas treatment system for exhaust gas treatment, and to an exhaust gas treatment package system for treating air pollutants such as SOx, NOx and dust in exhaust gas. That is, a plurality of air-pollutant abatement apparatuses capable of being combined are standardized by a unit unit of each module, with the aim of removing nitrogen oxides, sulfur oxides, and the like in the exhaust gas, The unit units of the module can be variously combined and processed.

In addition, the exhaust gas treatment package system according to the present invention is not limited to the air pollutants such as SOx, NOx, dust and the like as an object to be treated, and may further include an apparatus for treating other harmful substances such as carbon compounds according to exhaust gas have. At this time, the additional processing device may also be formed of a processing module including a plurality of standardized unit units.

1 and 2 are conceptual diagrams of a basic principle in which an exhaust gas treatment package 200 system according to the present invention is conceived. 1 and 2, the exhaust gas discharged from the discharge facility may contain sulfur oxides, nitrogen oxides, and the like. In order to treat the exhaust gas, an electrostatic precipitator 1, a flue gas desulfurization facility 2 (FGD ) And a denitration facility 3 (SCR) may be used. At this time, depending on the substance to be treated of the discharged exhaust gas, the type of the processing apparatus can be determined and the processing capacity of each processing apparatus can be determined according to the flow rate of the exhaust gas discharged.

The exhaust gas treatment package 200 system according to the present invention can standardize the electrostatic precipitator 1, the flue gas desulfurization facility 2 (FGD) and the denitrification facility 3 (SCR) as unit units, So that the air pollutant in the exhaust gas can be treated.

FIG. 3 is a diagram illustrating combinations of unit units that can be variously combined according to an embodiment of the present invention. 3 schematically shows an embodiment of the present invention. In FIG. 3, four electrostatic precipitator unit units 221, a desulfurization unit unit 231, and a denitration unit unit 241, . Each unit unit can be determined in various combinations depending on the substance to be treated and the exhaust gas flow rate, and can treat air pollutants in the exhaust gas. FIG. 3 shows an example in which dust and sulfur oxide among the air pollutants are removed, which is composed of two electric dust collecting unit units 221 and two desulfurizing unit units 231, and three electric dust collecting unit units 221 ) And three desulfurization unit units 231 to remove dust and nitrogen oxides from the air pollutants. Two unit units are installed to remove dust, sulfur oxides and nitrogen oxides from air pollutants Other examples are shown. In addition, various combinations can be possible depending on the air pollutant to be treated and the treatment capacity.

In this case, each unit unit can be standardized with the same processing target capacity, and the processing capacity can be determined from 1 m ³ / min to 5 m ³ / min. Through such standardization, it is possible to mass-produce products in the production stage, and in the use stage, it is possible to treat air pollutants of various sizes with a combination of standardized unit units.

4 is a diagram of an exhaust gas treatment package 200 system in accordance with an embodiment of the present invention. Referring to FIG. 4, an exhaust gas treatment package 200 system according to the present invention may include an inlet 100, a sensor 110, an exhaust gas treatment package 200, and a discharge unit 300.

The inflow section 100 serves to introduce an exhaust gas containing air pollutants into the exhaust gas treatment package 200. The sensor unit 110 can be installed in the inlet 100 and the sensor unit 110 installed in the inlet 100 can measure the flow rate of the exhaust gas flowing into the inlet 100, , And a multi-sensor capable of measuring the concentration of nitrogen oxide and the like. Various combinations of the exhaust gas treatment package 200 can be determined from the measured flow rate of the exhaust gas and the concentration of each air pollutant through the multi-sensor.

The exhaust gas treatment package 200 is coupled to the inlet 100 to remove atmospheric contaminants from the exhaust gas delivered from the inlet 100. At this time, the exhaust gas treatment package 200 may include a main flow path 210, an electrostatic dust collecting module 220, a desulfurization module 230, a denitration module 240, and a control unit.

The main channel 210 is disposed between the inlet 100 and the outlet so that the exhaust gas from the inlet 100 is delivered to the outlet. At this time, the main dust collecting module 220, the desulfurization module 230, and the denitration module 240 are coupled to the main flow path 210, so that air pollutants can be quantitatively and selectively removed through various combinations.

The electric dust collection module 220 removes dust from the exhaust gas. The electric dust collecting module 220 may be composed of a plurality of electric dust collecting unit units 221. As shown in FIG. 4, the number of electric dust collecting unit units 220 may be four, but the scope of the present invention is not limited to four . At this time, the processing capacity of the electrostatic dust collecting unit unit 221 can be determined to be any one of 1 m ³ / min to 5 m ³ / min, so that the remaining desulfurization unit unit 231, The processing capacity of the unit 221 is determined to be the same.

The desulfurization module 230 removes sulfur oxides from the exhaust gas and may be composed of a plurality of desulfurization unit units 231. The treatment capacity and the number of the desulfurization unit unit 231 may be the same as those of the electrostatic precipitator unit 221.

The denitration module 240 may be configured as a plurality of denitration unit units 241 when the exhaust gas removes nitrogen oxide. The processing capacity and the number of the denitration unit unit 241 may be the same as the number of the electric dust collection unit unit 221 and the desulfurization unit unit 231. [

Each of the electric dust collection unit units 221, the desulfurization unit unit 231 and the denitration unit unit 241 of the plurality of units is connected to the main flow path 210 to receive the exhaust gas from the main flow path 210, And returns to the main flow path 210 again. For example, if the treatment capacity of the exhaust gas is required to be two treatment capacities of each unit unit, and the substance to be treated is dust and sulfur oxide, the main flow channel 210 can be exhausted only by two electric dust collection unit units 221 And the exhausted gas is discharged to the discharge unit 300 through the two desulfurization unit units 231 via the main flow channel 210. [

The control unit (not shown) controls the flow of the exhaust gas into each unit unit in the main flow path 210. That is, the combination and the number of each unit unit are determined according to the flow rate of the exhaust gas measured by the sensor unit 110 and the concentration of dust, nitrogen oxides, and sulfur oxides, thereby controlling the inflow of exhaust gas into each unit unit .

At this time, a regulating valve may be formed in the main flow path 210 at a portion of the main dust collecting unit unit 221, the desulfurization unit unit 231, and the denitration unit unit 241, respectively. The control unit controls the opening and closing of the control valve to control the flow of exhaust gas to each unit unit.

5 is a view of an exhaust gas treatment package 200 system according to another embodiment of the present invention. 4, the electric dust collecting module 220, the desulfurization module 230, and the denitration module 240 may be arranged vertically to each other. The electric dust collecting module 220, the desulfurization module 230, and the denitration module 240 are disposed horizontally or vertically so as to overcome the spatial limitations of the installation site or installation location.

5, when the electrostatic dust collecting module 220, the desulfurization module 230, and the denitration module 240 are vertically disposed, the main flow path 210 is desulfurized at the outlet of the electrostatic dust collecting module 220, Module 230 and the outlet of the desulfurization module 230 may be connected to the inlet of the denitration module 240.

4 and 5, the exhaust gas treatment package 200 system of the present invention includes a container 400 that accommodates an electrostatic dust collecting module 220, a desulfurization module 230, and a denitration module 240 therein . Since each module is accommodated in the container 400, space can be efficiently utilized, and movement can be simplified and simplified. At this time, the container 400 includes a power portion capable of supplying electric power, and the exhaust gas capacity measured by the sensor portion 110 and the concentration of air pollutants in the exhaust gas are displayed on the front portion of the container 400, A display unit for displaying each module to be operated may be installed.

In addition, the scope of protection of the present invention is not limited to the description and the expression of the embodiments explicitly described above. Further, it should be noted that the scope of protection of the present invention can not be limited due to obvious changes or substitutions in the technical field to which the present invention belongs.

1: Electrostatic precipitator
2: Flue gas desulfurization equipment
3: Denitrification facility
100: inlet
110:
210: Main channel
220: Electric dust collection module
221: electric dust collecting unit
230: Desulfurization module
231: Desulfurization unit
240: denitration module
241: denitration unit
200: Exhaust gas treatment package
300:
400: Container

Claims (8)

An inflow portion into which exhaust gas flows;
A sensor unit for measuring a flow rate of exhaust gas flowing into the inflow portion and a concentration of dust, SOx, and NOx in the exhaust gas;
An exhaust gas treatment package coupled to the inlet portion to remove atmospheric contaminants from the exhaust gas delivered from the inlet portion; And
And a discharge unit coupled to the exhaust gas treatment package and discharging exhaust gas through the exhaust gas treatment package,
Wherein the exhaust gas treatment package comprises:
A main flow passage connecting the inflow portion and the discharge portion;
An electric dust collecting module connected to the main flow path and composed of a plurality of electric dust collecting unit units for removing dust from the exhaust gas;
A desulfurization module connected to the main flow path and composed of a plurality of desulfurization unit units for removing SOx from the exhaust gas;
A denitration module connected to the main flow channel and composed of a plurality of denitration unit units for removing NOx from the exhaust gas;
The desulfurization unit of the desulfurization module, the denitration unit of the denitration module, the denitration unit of the desulfurization module, the denitration unit of the desulfurization module, and the denitration unit of the denitration module, And a controller for controlling whether or not the exhaust gas is introduced into the engine.
An exhaust gas treatment package system. The method according to claim 1,
Wherein each of the electrostatic dust collecting unit unit, the desulfurizing unit unit, and the denitration unit unit is connected to the main flow path.
An exhaust gas treatment package system. 3. The method of claim 2,
Characterized in that the electric dust collection unit unit, the desulfurization unit unit, and the denitration unit unit are standardized so as to treat the same flow rate.
An exhaust gas treatment package system. The method of claim 3,
Wherein the electrostatic dust collecting module, the desulfurization module, and the denitration module each include the same number of the electrostatic precipitator unit, the desulfurization unit, and the denitration unit.
An exhaust gas treatment package system. 3. The method of claim 2,
A main flow path,
Further comprising a plurality of control valves for controlling whether the exhaust gas flows into the electric dust collecting unit unit, the desulfurization unit unit, and the denitration unit unit from the main flow path,
Wherein the control unit controls the control valve.
An exhaust gas treatment package system. The method according to claim 1,
Wherein the electric dust collecting module, the desulfurization module, and the denitration module are arranged in the left-right direction or in the vertical direction with respect to each other
An exhaust gas treatment package system. 7. The method according to any one of claims 1 to 6,
Further comprising a container for receiving said exhaust gas treatment package therein.
An exhaust gas treatment package system. The method according to claim 1,
Wherein the electrostatic dust-collecting unit unit, the desulfurizing unit unit, and the denitration unit unit are formed so that the capacity of the exhaust gas to be treated is the same between 1 m ³ / min and 5 m ³ / min.
An exhaust gas treatment package system.

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