Site Program Fact Sheet: Demonstration Of The Matrix Photocatalytic Inc. Photocatalytic Oxidation Technology


&EPA
United States	Office of Solid Waste and Emergency Response
Environmental Protection	Office of Research and Development
Agency	Washington, DC 20460
August 1995
PROGRAM FACT SHEET
Demonstration of the
Matrix Photocatalytic Inc.
Photocatalytic Oxidation Technology
THIS FACT SHEET TELLS YOU ABOUT
¦	EPA's Superfund Innovative Technology
Evaluation (SITE) Program
¦	An EPA SITE Program demonstration of
an innovative photocatalytic oxidation
technology
¦	A Visitors' Day on September 7, 1995, at
9:30 a.m. at the DOE Oak Ridge Reservation
in Oak Ridge, Tennessee
Introduction
The U.S. Environmental Protection Agency (EPA) identifies
new methods for hazardous waste cleanup through its
Superfund Innovative Technology Evaluation (SITE)
Program. Created in 1986, this program evaluates innovative
treatment technologies that may significantly reduce the
toxicity, mobility, or volume of hazardous wastes. The
primary goal of the SITE Program is to generate performance,
cost, and reliability information on innovative technologies.
This information can then be used to evaluate cleanup
alternatives for similar sites.
One technology to be demonstrated under the SITE Program
is the photocatalytic oxidation technology developed by
Matrix Photocatalytic Inc. (Matrix), of London, Ontario,
Canada. The demonstration will take place at the Department
of Energy (DOE) Oak Ridge Reservation (ORR) in Oak
Ridge, Tennessee. A primary objective of the demonstration
is to determine how effectively the technology destroys
volatile organic compounds (VOC) in groundwater at
the K-25 Site at ORR.
This fact sheet presents a brief discussion of the SITE
Program, the Matrix technology, the K-25 Site, the Matrix
technology demonstration, and the Visitors' Day at
the K-25 Site.
The SITE Program
Each year, EPA solicits proposals from private technology
developers to demonstrate innovative technologies under the
SITE Program. For each technology selected, EPA performs
the following tasks, often with input from state and regional
environmental protection agencies:
•	Identifies a site with wastes suitable to demonstrate
the technology
•	Prepares a quality assurance project plan (QAPP)
and a health and safety plan for the demonstration
•	Prepares a fact sheet for the public
•	Conducts the technology demonstration
•	Conducts and audits field sampling and laboratory
analyses
•	Organizes a Visitors' Day for the public to view the
technology demonstration
•	Evaluates technology performance and costs
•	Summarizes demonstration results in a demonstration
bulletin, a technology capsule, an innovative
technology evaluation report (ITER), a technology
evaluation report (TER), and a videotape
Technology Description
The Matrix photocatalytic oxidation technology destroys
VOCs in aqueous systems at ambient temperatures. This
technology involves the use of ultraviolet (UV) light, a
semiconductor catalyst (titanium oxide [Ti02]), hydrogen
peroxide, and ozone to generate hydroxyl radicals.
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The main component of the Matrix system is the
photocatalytic reactor cell, shown in Figure 1. The
reactor cell consists of an outer stainless-steel jacket that
encases a fiberglass mesh bonded with TiOr This
fiberglass mesh is wrapped around a quartz sleeve that
houses the UV lamp. The lamp emits low-intensity UV
light (predominantly at 254 nanometers [nm]) and is
mounted coaxially within the jacket. Contaminated water
flows into the reactor cell and passes through the fiberglass
mesh, where the contaminants are oxidized. As the water
passes through the matrix, the open pore configuration of
the mesh creates turbulent mixing, thereby improving
mass transfer in the mesh.
The reactor cells can be operated in series or in parallel,
depending on the concentration of contaminants, the required
throughput rate, and the amount of organic destruction
desired. The system can be operated in either continuous
flow or batch mode. Matrix claims that the technology does
not generate residue, sludge, or spent media that require
further processing, handling, or disposal. Target VOCs are
either completely oxidized or broken down into low molecular
weight compounds.
Hydrogen peroxide or ozone may be added to the contaminated
water to enhance system performance. These compounds
cause additional hydroxyl radicals to be generated when
the contaminated water reacts-with the UV- light in the
presence of the Ti02. If the amount of hydroxyl radicals
is insufficient, contaminants may not be completely
degraded and unstable intermediate compounds may
form. Some of these intermediate compounds, such as
haloacetic acids and aldehydes, are considered toxic.
The system to be demonstrated at ORR will consist of two
units operated in series. Each unit consists of 72 reactor cells
arranged into 12 wafers. Each wafer consists of six reactor
cells (see Figure 2). Contaminated groundwater will flow
in parallel mode into three reactor cells at a time at a
maximum flow rate of 2.4 gallons per minute (gpm).
Site Description
The K-25 Site at ORR was chosen for the demonstration (see
Figure 3). The K-25 Site consists of 1,700 acres, 700 of
which are enclosed in security fencing in the northwest
corner of ORR. The main plant at the K-25 Site was built
between 1943 and 1945 as part of the Manhattan Project and
was used to develop uranium-enriched materials for nuclear
weapons. During the postwar period, the plant was used to
produce enriched uranium for reactors used to generate
electric power.
The demonstration will take place near a 22-acre, inactive
burial ground on the east side of the K-25 Site. This burial
ground consists of the K-1070C and K-1070D burial
system ounrr
Figure 1. Matrix Photocatalytic Reactor Cell
grounds. The K-1070C burial ground operated until
1974 and the K-1070D burial ground operated from 1974
until 1989. These areas were used for the disposal of
various hazardous wastes, including solvents, corrosives,
oxidizers,., reducing agents., and .classified material. A
Comprehensive Environmental Response, Compensation,
and Liability Act (CERCLA) remedial investigation has
been ongoing at the burial ground since 1993. During the
demonstration, the Matrix system will treat groundwater
from the SW-31 spring located west of the burial ground.
Groundwater samples from this spring have contained
elevated concentrations of VOCs, including xylene at 330
micrograms per liter (/ig/L), 1,1,1-trichloroethane at 930
Hg/L, and 1,1-dichloroethane at 910 fig/L. EPA will
evaluate the removal efficiencies achieved by the Matrix
system for these and other VOCs.
Technology Demonstration
EPA will evaluate the Matrix photocatalytic oxidation
technology during a 2-week demonstration. Groundwater
from spring SW-31 has high concentrations of iron and
manganese (16 and 9.9 milligrams per liter [mg/L],
respectively). Metals present in water can form a precipitate
on the quartz sleeve or fiberglass mesh, causing scaling.
Therefore, a pretreatment system consisting of two parallel
cartridge filters and several ion-exchange columns will be
used to reduce the concentrations of these metals in the
groundwater.
After pretreatment, the groundwater will be injected with a
spiking solution containing tetrachloroethene,
trichloroethene, and benzene. These compounds were
selected as spiking agents because they are common
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WAFER 11
WAFER 9
WAFER 7
WAFER 5
WAFER 3
WAFER 1
-SYSTOJ fNlET
STAM&SS steel
-SSSU&ffltEL
Figure 2. Matrix Unit and Wafer Configuration Diagram
groundwater contaminants but are not present in
significant concentrations in groundwater from the SW-31
spring. Hydrogen peroxide and ozone will also be added
to the Matrix system at selected locations to enhance the
generation of hydroxyl radicals.
The Matrix system will be housed in an 8-by-20-foot, secure
trailer. Treated water will be returned to the SW-31 spring
for eventual discharge to the on-site groundwater treatment
facility.
EPA has prepared a detailed QAPP outlining the procedures
for evaluating the technology. The purpose of the
demonstration is to obtain performance, cost, and reliability
data about the Matrix technology so that potential users can
judge the technology's applicability to other sites.
After the demonstration is complete, EPA will publish the
results in several reports. Preliminary information on the
Matrix technology's performance, cost, and reliability will
be summarized in a demonstration bulletin. A more detailed
account of the technology's performance and applicability
will be presented in a technology capsule, an ITER, a TER,
and a videotape.
Visitors' Day
EPA and DOE will host a Visitors' Day on Thursday,
September 7, 1995. The Visitors' Day will include
presentations about the EPA SITE Program, the ORR K-25
Site, the Matrix photocatalytic oxidation technology, and
the demonstration. Visitors will also be able to view the
technology demonstration activities at the K-25 Site.
Those interested in attending the Visitors' Day should
complete and return the enclosed preregistration form or
call Kelly Enwright at (513) 241-0149. All forms must be
received by Wednesday, August 30, 1995.
Additional Information
Questions or comments about the SITE Program or the
demonstration should be directed to:
Mr. Richard Eilers
Technical Project Manager
U.S. Environmental Protection Agency
National Risk Management Research Laboratory
26 West Martin Luther King Drive
Cincinnati, OH 45268
Telephone:(513) 569-7809
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Specific questions about ORR or the K-25 Site should be
directed to:
Ms. Elizabeth Phillips
U.S. Department of Energy
3 Main Street
Oak Ridge, TN 37830
Telephone:(615) 241-6172
Specific question about the Matrix photocatalytic
oxidation technology should be directed to:
Mr. Bob Henderson
Matrix Photocatalytic Inc.
22 Pegler Street
London, Ontario, Canada N5Z 2B5
Telephone:^ 19) 660-8669
$ EPA
U.S. Environmental Protection Agency
26 West Martin Luther King Drive, MS-445
Cincinnati, Ohio 45268
Attention: Richard Eilers

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