EPA-452/F-03-010
Air Pollution Control Technology
Fact Sheet
Name of Technology: Condensation Scrubber
This type of technology is a part of the group of air pollution controls collectively referred to as "wet scrubbers."
Type of Technology: Removal of air pollutants by use of condensation to increase pollutant particle size,
followed by inertial interception.
Applicable Pollutants: Condensation scrubbers are typically intended to control fine particulate matter (PM)
with an aerodynamic diameter of between approximately 0.25and 1.0 micrometers (|im) (Sun, 1994).
Achievable Emission Limits/Reductions: Collection efficiencies of greater than 99 percent have been
reported for particulate emissions, based on study results (Sun, 1994).
Applicable Source Type: Point
Typical Industrial Applications:
Condensation scrubbers are intended for use in controlling fine PM-containing waste-gas streams, and are
designed specifically to capture fine PM wh ich has escaped a primary PM control device. The technology is
suitable for both new and retrofit installations. Condensation scrubbing systems are a relatively new
technology and are not yet generally commercially available (Sun, 1994; EPA, 1998; McMurry, 1999).
Emission Stream Characteristics:
a. Air Flow: Typical air flows are on the order of 10 standard cubic meters per second
(sm3/sec) or 21,000 standard cubic feet per m inute (scfm) (Sun, 1994).
b. Temperature: The waste gas entering a condensation scrubber is generally cooled to
saturation conditions, approximately 20 to 26°C (68 to 78T) (Sun, 1994).
c. Pollutant Loading: Pollutant loading is dependent upon the control effectiveness forfine
PM of the primary PM control system. Fine PM may, in some cases, comprise up to 90
percent of the total mass of PM emissions from a combustion source, and many primary
control technologies have relatively low collection efficiencies forfine PM (Sun, 1994).
d. Other Considerations: The fine fraction of PM emissionsfrom a combustion source often
contains cadmium and other metals. Use of a condensation scrubberto capture fine PM
may provide an effective method of reducing the emission of metals (Sun, 1994).
Emission Stream Pretreatment Requirements:
For PM control from combustion sources, the flue gas enters a coagulation area (e.g., ductwork, a chamber,
or a cyclone) to reduce the number of ultrafine particles, and then a gas conditioner to cool the gas to a
suitable temperature and saturation state. This is generally accomplished by means of a waste heat recovery
heat exchanger to reduce the temperature of the flue gas or by spraying water directly into the hot flue gas
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stream. It is usually not practical or cost effective to cool flue gases to temperatures below ambient values.
Condensation scrubbers are generally intended to be used downstream of another scrubber (e.g., a venturi
scrubber) which has already removed PM >1.0 urn aerodynam ic diameter (Sun, 1994).
Cost Information:
The following provides cost information (expressed in fourth quarter 1993 dollars) for retrofitting an existing
scrubber system with a condensation scrubber under typical operating conditions, adapted from EPA cost-
estimating spread sheets (EPA, 1 996) and referenced to the volumetric flow rate of the waste stream treated.
For purposes of calculating the example cost effectiveness, the pollutant is PM at a loading of approximately
7 grams per standard cubic meter (g/sm3) or 3 grains per standard cubic foot (gr/scf). The costs do not
include costs for post-treatment or disposa I of used solvent or waste (Sun, 1994).
a. Capital Cost: $13,000 per sm3/sec, ($6.00 per scfm)
b. O & M Cost: $5,300 per sm3/sec ($2.50 per scfm), annually
c. Annualized Cost: $7,000 per sm3/sec ($3.40 per scfm ), annually
d. Cost Effectiveness: $65 per metric ton ($59 per short ton), annualized cost per ton per
year of pollutant controlled
Theory of Operation:
Condensation scrubbing is a relatively recent development in wet scrubber technology. Most conventional
scrubbers rely on the mechanisms of im paction and diffusion to achieve contact between the PM and liquid
droplets. In a condensation scrubber, the PM act as condensation nuclei for the formation of droplets.
Generally, condensation scrubbing depends on first establishing saturation conditions in the gas stream.
Once saturation is achieved, steam is injected into the gas stream. The steam creates a conditbn of
supersaturation and leads to condensation of water on the fine PM in the gas stream. The large condensed
droplets are then removed by one of several conventional devices, such as a high efficiency mist eliminator
(EPA, 1998).
Advantages:
Advantages of cond ensation scrubbers include (Coo per, 1994):
1. Can handle flammable and explosive dusts with little risk;
2. Can handle fine PM;
3. Collection efficiency can be varied; and
4. Corrosive gases and dusts can be neutralized.
Disadvantages:
Disadvantages of con densation scrubbers include (Perry, 1984, Coo per, 1994):
1. Effluent liquid can create water pollution problems;
2. Waste product collected wet;
3. High potential for corrosion problems;
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4. Protection against freezing required;
5. Off-gas may require reheating to avoid visible plume;
6. Collected particulate may be contaminated, and may not be recyclable; and
7. Disposal of waste sludge may be very expensive.
Other Considerations:
For PM applicatbns, wet scrubbers generate waste in the form of a slurry. This creates the need for both
wastewatertreatm ent and solid waste disposal. Initially, the slurry is treated to separate the solid waste from
the water. The treated watercan then be reused or discharged. Once the water is removed, the remaining
waste will be in the form of a solid or sludge. If the solid waste is inert and nontoxic, it can generally be
landfilled. Hazardous wastes will have more stringent procedures for disposal. In some cases, the solid
waste may have value and can be sold or recycled (EPA, 1998).
References:
Cooper, 1994. David Cooper and F. Alley, Air Pollution Control: A Design Approach, 2nd Edition,
Waveland Press, Prospect Heights, IL, 1994.
EPA, 1 996. U.S. EPA, Office of Air Quality Planning and Standards, "OAQPS Control Cost Manual," Fifth
Edition, EPA 453/B-96-001, Research Triangle Park, NC February.
EPA, 1998. U.S. EPA, Office of Air Quality Planning and Standards, "Stationary Source Control
Techniques Document for Fine Particulate Matter," EPA-452/R-97-001, Research Triangle Park, NC,
October.
McMurry, 1999. Peter McMurry, University of Minnesota, Department of Mechanical Engineering, (612)
624-2817, personal communication with Eric Albright, May 25, 1999.
Perry, 1984. "Perry's Chemical Engineers' Handbook," edited by Robert Perry and Don Green, 6th Edition,
McGraw-Hill, New York, NY, 1984.
Sun, 1994. Jinjun Sun, Benjamin Liu, Peter McMurry, and Stephen Greenwood, "A Method to Increase
Control Efficiencies of Wet Scrubbers for Submicron Particles and Particulate Metals," J. Air & Waste
Management Association, 44:2, February 1994.
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