A Citizen's Guide to
Thermal Desorption
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What Is Thermal Desorption?
Thermal desorption removes organic contaminants
from soil, sludge or sediment by heating them in a
machine called a "thermal desorber" to evaporate the
contaminants. Evaporation changes the contaminants
into vapors (gases) and separates them from the solid
material. Many organic contaminants can be removed
by thermal desorption. These include volatile organic
compounds or "VOCs" and some semi-volatile organic
compounds or "SVOCs." VOCs such as solvents and
gasoline evaporate easily when heated. SVOCs require
higher temperatures to evaporate and include diesel
fuel, creosote (a wood preservative), coal tar, and several
pesticides. Thermal desorption generally is not used to
treat metals but can partially remove metals like mercury
and arsenic, which evaporate at the temperatures
sometimes reached in thermal desorption.
A thermal desorber is not the same as an incinerator,
which heats contaminated materials to temperatures
high enough to destroy the contaminants. (See A
Citizen's Guide to Incineration [EPA 542-12-010].)
How Does It Work?
Thermal desorption involves excavating soil or other
contaminated material for treatment in a thermal
desorber. The desorber may be assembled at the site
for onsite treatment, or the material may be loaded into
Cleaned
Vapors
Contaminated
Material
Concentrated
Contaminants
for Disposal
Oversized
Objects
Removed
. • •
Treated
Material
Thermal desorber heats contaminated material to evaporate
contaminants.
trucks and transported to an offsite thermal desorption
facility. To prepare the soil for treatment, large rocks or
debris first must be removed or crushed. The smaller
particle size allows heat to more easily and evenly
separate contaminants from the solid material. If the
material is very wet, the water may need to be removed
to improve treatment. This water removed may require
treatment using other methods.
The prepared soil is placed in the thermal desorber to
be heated. Low-temperature thermal desorption is used
to heat the solid material to 200-600°F to treat VOCs.
If SVOCs are present, then high-temperature thermal
desorption is used to heat the soil to 600-1000°F.
Gas collection equipment captures the contaminated
vapors. Vapors often require further treatment, such
as removing dust particles. The remaining organic
vapors are usually destroyed using a thermal oxidizer,
which heats the vapors to temperatures high enough
to convert them to carbon dioxide and water vapor. At
some sites with high concentrations of organic vapors,
the vapors may be cooled and condensed to change
them back to a liquid form. The liquid chemicals may
be recycled for reuse, or treated by incineration. If the
concentrations of contaminants are low enough, and
dust is not a problem, the vapors may be released
without treatment to the atmosphere.
Often, treated soil can be used to fill in the excavation
at the site. If the treated soil contains contaminants that
do not evaporate, such as most metals, they may be
disposed of and capped onsite, or transported offsite to
an appropriate landfill.
How Long Will It Take?
Thermal desorption may take from a few weeks to a few
years. The actual cleanup time will depend on several
factors. For example, thermal desorption may take
longer where:
• The contaminated area is large or deep.
• Contaminant concentrations are high.
• The soil contains a lot of dust, clay, or organic
material, which causes contaminants to stick to the
soil and not evaporate easily.
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• A lot of debris must be crushed or removed.
• The capacity of the desorber is small. (Most thermal desorbers can clean over
25 tons of contaminated material per hour.)
These factors vary from site to site.
Is Thermal Desorption Safe?
Thermal desorption has been safely used at many Superfund sites. EPA makes
sure that materials are handled properly at each stage of the process. Workers
take measures, such as covering loose soil, to control dust and vapors during
excavation and treatment. If necessary, they collect and treat the gases that are
produced in the desorber.
How Might It Affect Me?
Excavating soil and other contaminated materials for thermal desorption
involves the use of heavy machinery, such as backhoes and bulldozers, which
may be noisy. Excavation of soil and sediment may release dust and vapors into
the air but this is controlled with covers, foam, or water. Nearby residents and
businesses also may see increased truck traffic when excavation equipment
and thermal desorption systems are delivered to the site. If an offsite desorber is
used, truckloads of soil must be transported from the site to the desorber.
Why Use Thermal Desorption?
Thermal desorption is typically used to clean up soil that is contaminated with
VOCs and SVOCs at depths shallow enough to reach through excavation.
Thermal desorption may be
faster and provide better
cleanup than other methods,
particularly at sites that
have high concentrations
of contaminants. A faster
cleanup may be important if
a contaminated site poses
a threat to the community
or needs to be cleaned up
quickly so that it can be
reused.
Thermal desorption is being
used or has been selected
for use at over 70 Superfund Onsjte thermal desorber
sites across the country.
Example
High-temperature thermal desorption
was used to clean up contaminated
soil at the Industrial Latex
Superfund site in New Jersey.
From 1951 to 1983, Industrial
Latex manufactured rubber and
adhesives, contaminating soil
with SVOCs, PCBs, and arsenic.
From April 1999 to June 2000,
about 53,600 cubic yards of
contaminated material were
excavated to depths of up to
14 feet. Materials greater than
2 inches in diameter were
removed before placing the soil
in the desorber and heating
it to 900°F. About 225 tons of
contaminated soil were treated
each day. A small amount of
treated soil had to be placed
back in the desorber a second
time to meet cleanup goals for
PCBs, SVOCs, and arsenic.
The cleaned soil was used to
backfill the areas that had been
excavated.
Vapors from the desorber passed
through scrubbers and filters that
removed dust particles and a
filter that removed contaminant
vapors. Air quality was monitored
daily to make sure the air
released from the desorber met
permitted levels.
For More Information
For more information on this and
othertechnologies in the Citizen's
Guide Series, contact:
U.S. EPA
Technology Innovation &
Field Services Division
Technology Assessment Branch
(703)603-9910
Or visit:
www.cluin.org/ThermalEx
NOTE: This fact sheet is intended solely as general information to the public. It is not intended, nor can it be relied upon, to create any rights
enforceable by any party in litigation with the United States, or to endorse the use of products or services provided by specific vendors. The
Agency also reserves the right to change this fact sheet at any time without public notice.
United States
Environmental Protection
Agency
Office of Solid Waste and
Emergency Response
(5102G)
EPA 542-F-12-020
September 2012
www.epa.gov/superfund/sites
www.cluin.org
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