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Flue Gas Purification Process Using A Sorbent Polymer Composite Material

a composite material and flue gas technology, applied in the direction of other chemical processes, separation processes, dispersed particle separation, etc., can solve the problems of affecting the development of fetuses and young children, and affecting the health of people, so as to reduce the cost of removing pollutants

Inactive Publication Date: 2007-09-06
WL GORE & ASSOC INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present invention provides a method and apparatus for removing multiple pollutants from industrial flue gases, such as SOx, Hg vapor, and PM2.5, without the need for costly sorbent regeneration. The method involves using a sorbent-polymer-composite (SPC) sorbent house, which removes the pollutants through a series of heat exchangers in the exhaust duct. The flue gas is then discharged into the stack free of the pollutants. The SPC sorbent material can be used for a long period of time continuously while maintaining a high level of pollutant removal. The apparatus includes a SPC sorbent house with a high Hg fixation capacity, a method for removing fine particulate matters, and a method for converting SOx into sulfuric acid and expelling it for sale. The technical effects of the invention include reducing the cost of pollutant removal, eliminating the need for separate sorbent regeneration, and producing a high-concentration sulfuric acid solution.

Problems solved by technology

They also form acid rains, which damage forests, fisheries, and architectures.
It is particularly dangerous to developing fetuses and young children.
However, fine particulates, especially those of less than 2.5-micrometer size (PM2.5), cause great health problems on human beings.
PM2.5 is found to trigger heart attacks, damage lungs and kill thousands of people every year.
These technologies are typically very complicated and expensive.
However, the SO2 and NOx removal efficiencies of this process are limited, while the system is expensive, energy input is very high, and the collected acid solution may need treatment as liquid waste.
The disadvantages of a regenerating process are: 1) it consumes activated carbon; 2) it generates secondary pollution, such as low concentration acid solution; and 3) it makes the overall system complicated and expensive.

Method used

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  • Flue Gas Purification Process Using A Sorbent Polymer Composite Material
  • Flue Gas Purification Process Using A Sorbent Polymer Composite Material
  • Flue Gas Purification Process Using A Sorbent Polymer Composite Material

Examples

Experimental program
Comparison scheme
Effect test

example 1

FE Composite Tape

[0084] PTFE emulsion: an aqueous dispersion of polytetrafluoroethylene (PTFE) resin. For example, PTFE Dispersion 35 was supplied by Dupont Fluoroproducts. The PTFE particle size is from 0.05 to 0.5 μm; solid content of the PTFE emulsion is 35 wt %.

[0085] Activated carbon: fine powered activated carbon. For example, Nuchar RGC carbon powder, which is supplied by MeadWestvaco Corporation. The average carbon particle size is 40 μm. The total pore volume and total surface area are 1.1 cc / g and 1,600 M2 / g, respectively.

[0086] Activated carbon powder (from MeadWestvaco) was wetted with deionized water then mixed with PTFE emulsion (from Dupont) in a high-speed stirrer tank. The weight ratio of Carbon / PTFE is 70 / 30. Under intense stirring, the mixture was coagulated. Then, the coagulated mixture was separated from water and dried at 100° C. A lubricant (e.g., 50 / 50 water / isopropyl alcohol or mineral spirit or kerosene) is used to lubricate the dried mixture and to form ...

example 2

Sulfur Treated Carbon-PTFE Composite Tape

[0087] An activated carbon powder (Nuchar RGC carbon powder from MeadWestvaco) and elemental sulfur powder (from Aldrich, powder particle size <100 mesh, refined) were mixed at a weight ratio (Carbon / Sulfur) of 98 / 2 in a high-speed stirrer tank at dry condition. The mixture was then heated to 180° C. for 4 hours. After cooling, the carbon-sulfur powder mixture was used as the sorbent material in a CPC tape, which was produced as described in Example 1 (i.e., the carbon-sulfur powder mixture was substituted for the activated carbon powder in Example 1).

example 3

n Containing Chemical Treated Carbon-PTFE Composite Tape

[0088] An activated carbon powder (Nuchar RGC carbon powder from MeadWestvaco) was wetted with deionized water (about 50% by weight carbon and about 50% by weight water), and then put into a water solution that contains an iodide compound (IC), such as potassium iodide and / or sodium iodide to form a slurry mixture. The slurry mixture contained 10-50 wt % of solid and 90-50 wt % water. The IC content impregnated in the activated carbon was 0.2 wt %. The carbon / IC slurry mixture was mixed with PTFE emulsion (PTFE Dispersion 35 from Dupont) at a weight ratio (carbon / PTFE) of 70 / 30 in a high-speed stirrer tank. Then the mixture is made into CPC tape as described in Example 1.

[0089] The iodide compound can be water-soluble metal iodide salts, organic iodide compounds, and iodide coordination complexes, etc. Also a water-insoluble iodide compound can be impregnated using a reaction between two water-soluble compounds. As an example,...

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Abstract

This invention provides a process of removing sulfur oxides, mercury vapor, and fine particulate matters from industrial flue gases that contain such pollutants. The pollutants are removed by modules, which contain microporous adsorbent (i.e., sorbent) material that is held within a polymer matrix. The preferred polymers are fluoropolymers. The composite material that contains the microporous absorbent material held within a polymer matrix removes sulfur oxides by converting them into high concentration sulfuric acids. It also removes mercury vapor by chemically adsorbing the mercury into the matrix. It also removes fine particulate matters by surface filtration. The sulfuric acid that is produced inside the composite material is automatically expelled onto the external surfaces of the composite material and is drained into an acid reservoir together with the fine particulate matters which are washed from the external surfaces of the composite material by the constant dripping of the sulfuric acid along the external surfaces of the composite material.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application is a divisional of U.S. application Ser. No. 10 / 872,288 filed on Jun. 19, 2004, which claims the benefit of U.S. provisional application 60 / 478,881 filed on Jun. 20, 2003, now abandoned.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT [0002] This invention is partially supported financially by the U.S. National Science Foundation Small Business Innovation Research Program DMI-0232034 and the U.S. Environmental Protection Agency Small Business Innovation Research Programs 68-D-03-035 and EP-D-04-061. The U.S. government has certain rights in this invention.REFERENCE TO A COMPACT DISK APPENDIX [0003] Not applicable. BACKGROUND OF THE INVENTION [0004] 1. Field of the Invention [0005] The present invention relates to a pollution control method for removing sulfur oxides, mercury vapor, and fine particulate matters from industrial flue gases, such as coal-fired power plant flue gas. [0006] 2. Description of th...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B01J20/22B01D53/04B01J20/20B01J20/28B01J20/32
CPCB01D53/02B01J20/027B01D2253/102B01D2253/202B01D2257/302B01D2257/602B01J20/20B01J20/28026B01J20/28028B01J20/28033B01J20/28035B01J20/28052B01J20/2808B01J20/3236B01J20/3242B01J20/261B01J20/3007B01J20/3078B01J20/3204B01J20/3234B01J20/3285B01J20/0266B01D53/04
Inventor LU, XIA-CHUNWU, XIAOQUN
Owner WL GORE & ASSOC INC
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