KR20100036430A - Method and apparatus of co2 separation and collection at off gas - Google Patents

Abstract

PURPOSE: A method for separating and collecting carbon dioxide from exhaust gas and a device thereof are provided to efficiently and inexpensively collect and separate carbon dioxide without using additional energy. CONSTITUTION: A method for separating and collecting carbon dioxide from exhaust gas includes the following steps: producing renewable energy through a heat-exchange process from the excess heat of exhaust gas; reducing the temperature while removing foreign materials from the exhaust gas; separating the carbon dioxide from the pre-processed exhaust gas; and collecting the carbon dioxide from absorption liquid including the separated carbon dioxide. A device for separating and collecting carbon dioxide includes a heat-exchanger(11), a scrubber(4), and an absorbing device(12).

Description

Method and apparatus of CO2 separation and collection at off gas

The present invention relates to a method for recovering and recovering carbon dioxide for efficiently and economically separating and recovering carbon dioxide from off gas generated during a steelmaking process, in particular, during the Finenex process.

The off gas emitted during the steel manufacturing process contains carbon dioxide. Especially, the exhaust gas emitted from the flow furnace during the Finex process contains a large amount of carbon dioxide and can be used as a heat source. It also contains a large amount of hydrogen.

Since the carbon monoxide is difficult to use in the state in consideration of thermal resin and reactivity in the state of mixing with carbon dioxide, after cooling the exhaust gas, most of the carbon dioxide is removed through the pressure swinging device (5) to maintain the concentration of carbon monoxide and hydrogen. After raising the injected into the reduction furnace (6) is utilized as a reducing gas.

1 shows a conventional waste gas separation recovery process using the pressure swing method, and shows a process of separating and recovering the waste gas in one example of a Finex process. The discharge temperature of the exhaust gas generated from the flow furnace is 400 ℃ or higher and the temperature is reduced to about room temperature by passing through a wet dust collector to remove dust and the like. The removed exhaust gas is injected into the reduction furnace 6.

Therefore, the conventional waste gas separation recovery process using the pressure swing method requires a lot of power, and there is a problem in that a lot of energy is used in separating and recovering carbon dioxide. In addition, the absorption process may be used in addition to the pressure swing method, which also requires a lot of energy to separate and recover the carbon dioxide.

The present invention solves the problem of using a large amount of energy in the swing process, which is a technology for separating and recovering carbon dioxide from a conventional exhaust gas, and relates to a method for recovering and recovering carbon dioxide, which is more efficient and has excellent separation recovery rate.

The present invention to achieve the above object,

A heat exchange step for generating renewable energy from heat exhaust gas waste heat generated in a steel mill through a heat exchange process; and a pretreatment step for removing foreign substances from the exhaust gas passed through the heat exchange process and lowering the temperature; Separating carbon dioxide from the pretreated exhaust gas and using a renewable energy generated in the heat exchange step to recover carbon dioxide from the absorbent liquid containing the separated carbon dioxide from the exhaust gas, characterized in that consisting of It provides a method for separating and recovering carbon dioxide.

In the present invention, the carbon dioxide is separated and recovered by absorption method, and the energy used for regeneration and recovery of carbon dioxide from the absorption liquid uses renewable energy made by using waste gas waste heat, thereby using carbon dioxide in the process without using additional energy. Economical and efficient separation recovery is possible.

The present invention is a heat exchange step for generating renewable energy through heat exchange process from hot off gas waste heat generated in steel mills, etc. A carbon dioxide separation recovery step of separating carbon dioxide from the pretreated exhaust gas by using an absorption method and separating and recovering carbon dioxide from the absorbent liquid containing the separated carbon dioxide using the renewable energy generated in the heat exchange step. The present invention relates to a method for separating and recovering carbon dioxide from exhaust gas.

Or it may further comprise a power generation step for producing electricity from the waste heat of the high temperature exhaust gas generated in the steel mill before the heat exchange step.

Alternatively, the power generation step may generate electricity using an organic Rankine system.

Alternatively, the exhaust gas may use the gas discharged from the flow path 3 during the FINEX process.

Alternatively, the renewable energy generated in the heat exchange step may be steam having 100 to 300 ° C.

Alternatively, tail gas in which carbon dioxide generated through the separation recovery step is concentrated may be sent to the gas holder 8 like other exhaust gas, which may be used to adjust a calorific value suitable for combustion. .

In addition, the present invention provides a heat exchanger (11) for heat exchange from the waste heat of the high-temperature exhaust gas generated in steel mills, etc. and a dust collecting device for removing foreign substances from the exhaust gas passed through the heat exchanger (11) and lowering the temperature ( 4) separating carbon dioxide from the exhaust gas pretreated in the dust collecting device 4 using the scrubber and the absorption method, and using the renewable energy generated in the heat exchange step, carbon dioxide is removed from the absorbent liquid containing the separated carbon dioxide. A separation and recovery apparatus for carbon dioxide from exhaust gas, characterized by comprising an absorber (12) for separating and recovering.

In addition, before inputting the waste heat of the high temperature generated in the steelworks and the like into the heat exchange device 11, it is possible to produce electricity from the exhaust gas of the high temperature using the organic Rankine system.

As the exhaust gas used in the present invention, it is preferable to use by-product gas generated in the steel mill. The by-product gas may include blast furnace gas, coke oven gas, converter gas, and the like, and gas generated during the reforming process for producing hydrogen using the coke oven gas or converter gas.

In addition, it is more preferable to use the exhaust gas generated in the Finex process, which is a new technology for manufacturing pig iron, because the exhaust gas generated in the Finex process contains a large amount of carbon dioxide.

The present invention uses the absorption method instead of the pressure swing method of the prior art as a method for separating and recovering carbon dioxide from the exhaust gas.

In the absorption method, carbon dioxide is absorbed and regenerated from the exhaust gas by using an absorbent such as amines. When heated with carbon dioxide, carbon dioxide is separated from the absorbent liquid, and the separated carbon dioxide is collected and recovered.

Energy for separating and recovering carbon dioxide from the absorbent liquid is to use the renewable energy generated by the heat exchange device 11 of the present invention, the renewable energy may be used, such as steam, liquid fruit, gas fruit, more preferably Steam can be used because it is excellent in thermal efficiency and easy process control when steam is used as a fruit.

Hereinafter, the present invention will be described with reference to the drawings. However, the present invention is not limited by the embodiment in the drawings.

Figure 2 shows a process for separating and recovering carbon dioxide from the exhaust gas by using the absorption method of the present invention in the pinenex process as an example.

The exhaust gas discharged from the flow furnace 3 is at a high temperature of 400 ° C or higher. The exhaust gas is sent to the absorber 12 to remove carbon dioxide, and the foreign matter from the exhaust gas using the dust collector 4 is poor in the recovery rate of carbon dioxide in a state containing high temperature and various foreign substances. Remove the temperature and drop the temperature to room temperature. Therefore, a large amount of energy is required to lower the temperature of the exhaust gas to about room temperature.

Therefore, the present invention generates renewable energy in the heat exchanger 11 using the waste gas waste heat before sending the exhaust gas to the dust collector 4, and the generated renewable energy is sent to the absorber 12 to separate carbon dioxide from the absorbent liquid. It is used as energy needed for recovery.

Therefore, since carbon dioxide is separated and recovered by using waste gas waste heat in the same process, thermal efficiency is very high and the amount of energy used can be greatly reduced, so that carbon dioxide can be separated and recovered from exhaust gas economically and efficiently.

The renewable energy generated by the heat exchanger 11 may exist in various forms, and the renewable energy in the form of steam is preferable and has a temperature range within 100 to 300 ° C. to remove carbon dioxide most efficiently in a carbon dioxide separation recovery process. It becomes possible. In addition, since the exhaust gas passing through the heat exchanger 11 generates the renewable energy using waste heat, the temperature is considerably lowered, thereby reducing the amount of energy used to lower the temperature to room temperature when passing through the dust collector 4.

The exhaust gas at room temperature pretreated by the dust collector 4 is separated from the exhaust gas by the amine-based absorbent liquid in the absorber 12, and the absorbent liquid is separated and recovered from the absorbent liquid by the heating medium. .

Therefore, the exhaust gas from which carbon dioxide has been removed is sent to a reduction furnace (6), and tail gas in which carbon dioxide is concentrated through an absorption process is the gas holder (8) like other exhaust gases (excess gas). It is used to control the proper amount of heat during combustion.

3 illustrates a process in which the power generation device 13 is further installed in FIG. 2 as an example.

The discharged gas discharged from the flow path 3 is not sent directly to the heat exchanger 11, but is sent to the power generation unit 13 first to generate power using waste gas waste heat to generate power, and to use a lower temperature discharged gas. To generate the renewable energy in the heat exchange device (11). Therefore, it is possible to produce power and renewable energy at the same time has the effect of maximizing the use of waste heat of the exhaust gas. The rest of the process is as described above in FIG.

It is preferable that the power generation device 13 use an organic Rankine system. If the coal-fired power generation technology is used as it is to generate axial power or electric power using waste heat from the exhaust gas, the boiler is enlarged when the waste heat in the low to mid-temperature range is recovered as water vapor by using the steam generated from the exhaust gas. The heat recovery rate is worse, there is a problem that the economy is inferior.

However, since the organic Rankine system uses an organic medium having a low boiling point and high vapor pressure instead of water as a working fluid, it is possible to miniaturize the equipment and thus it is a suitable process for converting low-temperature waste heat into electric power.

The exhaust gas that has passed through the above process is sent to a reduction furnace 6 for a reduction reaction, and processed through it to be recycled as a heat source.

Figure 1 shows a process for separating and recovering carbon dioxide from the exhaust gas using a conventional pressure swing process in the pineneck process as an example.

Figure 2 shows a process for separating and recovering carbon dioxide from the exhaust gas by using the absorption method of the present invention in the pinenex process as an example.

3 shows a process in which a power generation apparatus is further installed in FIG. 2 as an example.

<Description of the symbols for the main parts of the drawings>

1: wet spectroscopy device 2: drying device

3: flow path 4: dust collector

5: Pressure swing device 6: Reduction furnace

7: melting furnace 8: gas holder

11 heat exchanger 12 absorber

13: power generator

Claims (8)

A heat exchange step for generating renewable energy through a heat exchange process from hot off gas waste heat generated in a steel mill; A pretreatment step for removing foreign substances from the exhaust gas that has passed through the heat exchange process and lowering the temperature; and The carbon dioxide separation recovery step of separating carbon dioxide from the pre-treated exhaust gas and separating and recovering carbon dioxide from the absorbent liquid containing the separated carbon dioxide by using the renewable energy generated in the heat exchange step. Separation and recovery method of carbon dioxide from the discharged gas. The method of claim 1, Before the heat exchange step, the method for separating and recovering carbon dioxide from the exhaust gas, characterized in that it further comprises a power generation step for producing electricity from the high-temperature off-gas waste heat generated in steel mills and the like. The method of claim 2, The power generation step is a separate recovery method of carbon dioxide from the exhaust gas, characterized in that for producing electricity using an organic rankine system (organic rankine system). The method according to any one of claims 1 to 3, The off gas (off gas) is a separation recovery method of carbon dioxide from the exhaust gas, characterized in that using the gas discharged from the flow path during the Finex (Finex) process. The method according to any one of claims 1 to 3, Regeneration energy generated in the heat exchange step is separated recovery of carbon dioxide from the exhaust gas, characterized in that the steam 100 ~ 300 ℃. The method according to any one of claims 1 to 3, Tail gas generated through the separation recovery step and concentrated carbon dioxide is sent to a gas holder like other exhaust gas (excess gas) is used to adjust the calorific value suitable for combustion Separation and recovery method of carbon dioxide from exhaust gas. A heat exchanger for generating renewable energy by heat-exchanging heat from off-gas waste heat generated at a steel mill or the like; and A dust collector (scrubber) for removing foreign substances from the exhaust gas passing through the heat exchanger and lowering the temperature; and An absorption apparatus for separating carbon dioxide from the exhaust gas pretreated in the dust collector using absorption method and separating and recovering carbon dioxide from the absorption liquid containing the separated carbon dioxide using the renewable energy generated in the heat exchange step. Separation and recovery of carbon dioxide from the exhaust gas, characterized in that. The method of claim 7, wherein Further comprising a power generation device for producing electricity from the high-temperature exhaust gas by using an organic rankine system before inputting the hot off-gas waste heat generated in the steel mill, etc. into the heat exchanger. Separation and recovery system of carbon dioxide from the discharged gas.

Images