Environmental Technology Verification
Baghouse Filtration Products
Sinoma Science & Technology Co., Ltd.
FT-806 Filtration Media
(Tested May 2011)
Prepared by
RTI International ETS Incorporated
HRTI
INTERNATIONAL
Under a Cooperative Agreement with
U.S. Environmental Protection Agency
EPA
EF/
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THE ENVIRONMENTAL TECHNOLOGY VERIFICATION
PROGRAM
U.S. Environmental Protection Agency
BRTI
INTERNATIONAL
ETV Joint Verification Statement
TECHNOLOGY TYPE:
APPLICATION:
TECHNOLOGY NAME:
COMPANY:
ADDRESS:
WEB SITE:
E-MAIL:
BAGHOUSE FILTRATION PRODUCTS
CONTROL OF PM25 EMISSIONS BY BAGHOUSE FILTRATION
PRODUCTS
FT-806 Filtration Media
Sinoma Science & Technology Co., Ltd.
No. 99 Tongtian Road
Jiangjing Science Garden
Nanjing, Jiangsu, China
Phone: 86-25-87186865
Fax:86-25-87186876
http://www.sinomatech.com/html-en/index.html
juxiaohui@gmail.com
The U.S. Environmental Protection Agency (EPA) created the Environmental Technology Verification
(ETV) Program to facilitate the deployment of innovative or improved environmental technologies
through performance verification and dissemination of information. The goal of the ETV Program is to
further environmental protection by accelerating the acceptance and use of improved and cost-effective
technologies. The ETV Program seeks to achieve this goal by providing high-quality, peer-reviewed data
on technology performance to those involved in the design, distribution, financing, permitting, purchase,
and use of environmental technologies.
The ETV Program works in partnership with recognized standards and testing organizations; stakeholder
groups, which consist of buyers, vendor organizations, permitters, and other interested parties; and with
the full participation of individual technology developers. The program evaluates the performance of
innovative technologies by developing test plans that are responsive to the needs of stakeholders,
conducting field or laboratory tests (as appropriate), collecting and analyzing data, and preparing peer-
reviewed reports. All evaluations are conducted in accordance with rigorous quality assurance (QA)
protocols to ensure that data of known and adequate quality are generated and that the results are
defensible.
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The Air Pollution Control Technology Center (APCT Center) is operated by RTI International* (RTI), in
cooperation with EPA's National Risk Management Research Laboratory (NRMRL). The APCT Center
evaluates the performance of baghouse filtration products (BFPs) used primarily to control PM2 5
emissions (i.e., particles 2.5 urn and smaller in aerodynamic diameter). This verification statement
summarizes the test results for Sinoma Science & Technology Co., Ltd.'s (SSTCL's) FT-806 filtration
media.
VERIFICATION TEST DESCRIPTION
All tests were performed in accordance with the APCT Center Generic Verification Protocol for
Baghouse Filtration Products, available athttp://www.epa.gov/etv/pubs/05_vp_bfp.pdf The protocol is
based on and describes modifications to the equipment and procedures described in Verein Deutscher
Ingenieure (VDI) 3926, Part 2, Testing of Filter Media for Cleanable Filters under Operational
Conditions, December 1994. The VDI document is available from Beuth Verlag GmbH, 10772 Berlin,
Germany. The protocol also includes requirements for quality management and QA, procedures for
product selection, auditing of the test laboratories, and the test reporting format.
Outlet particle concentrations from a test fabric were measured with an impactor equipped with
appropriate substrates to filter and measure PM2 5 within the dust flow. Outlet particle concentrations were
determined by weighing the mass increase of dust collected in each impactor filter stage and dividing by
the gas volumetric flow through the impactor.
Particle size was measured while injecting the test dust into the air upstream of the baghouse filter
sample. The test dust was dispersed into the flow using a brush-type dust feeder. The particle size
distributions in the air were determined both upstream and downstream of the test filter fabric to provide
accurate results for penetration through the test filter of PM2 5. All tests were performed using a constant
18.4 ± 3.6 g/dscm (8.0 ± 1.6 gr/dscf) loading rate, a 120 ± 6.0 m/h (6.6 ± 0.3 fpm) filtration velocity
[identical to gas-to-cloth ratio (G/C )], and aluminum oxide test dust with a measured mass mean
aerodynamic diameter maximum of 1.5 urn (average of three impactor runs). All BFPs are tested in their
initial (i.e., clean) condition.
Each of the three test runs consisted of the following segments:
• Conditioning period—10,000 rapid-pulse cleaning cycles
• Recovery period—30 normal-pulse cleaning cycles
• Performance test period—6-hour filter fabric test period with impactor.
VERIFIED TECHNOLOGY DESCRIPTION
Baghouses are air pollution control devices used to control particulate emissions from stationary sources
and are among the technologies evaluated by the APCT Center. Baghouses and their accompanying filter
media have long been one of the leading particulate control techniques for industrial sources. Increasing
emphasis on higher removal efficiencies has helped the baghouse to be continually more competitive
when compared to the other generic PM control devices to the point where it is now the control option of
choice for most industrial applications. The development of new and improved filter media has further
enhanced baghouse capability to control fine PM over an expanded range of industrial applications.
RTI International is a trade name of Research Triangle Institute.
Filtration velocity and gas-to-cloth ratio are used interchangeably and are defined as the gas flow rate divided by the surface
area of the cloth.
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SSTCL provided the following information about their product. The FT-806 is a filter media with a
polytetrafluoroethylene (PTFE) membrane. Figure 1 is a photograph of the fabric. Sample material was
received as ten 46 x 91 cm (18x36 in.) swatches marked with the manufacturer's model number, year
and month of manufacture, and cake side. Three of the swatches were selected at random for preparing
three test specimens 150 mm (5.9 in.) in diameter.
Sinoma Science & Technology
PC# FT-806
Filter Media with ePTFE Membrane
Figure 1. Photograph of SSTCL's FT-806 filtration media.
VERIFICATION OF PERFORMANCE
Verification testing of the SSTCL FT-806 filtration media was performed during the period of May 13-
20, 2011, for standard test conditions at the test facility of ETS Incorporated, 1401 Municipal Road NW,
Roanoke, VA 24012. Test conditions are listed in Table 1. The overall test results summarized in Table 2
represent the averages of three individual tests.
The APCT Center quality manager has reviewed the test results and the quality control (QC) data and has
concluded that the data quality objectives given in the generic verification protocol and test/QA plan have
been attained.
This verification statement addresses five aspects of filter fabric performance: filter outlet PM2 5
concentration, filter outlet total mass concentration, pressure drop, filtration cycle time, and mass gain on
the filter fabric. Users may wish to consider other performance parameters, such as temperature, service
life, and cost when selecting a filter fabric for their application.
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Table 1. Test Conditions for Baghouse Filtration Products
Brand/Model: SSTCL's FT-806 Filtration Media
Test Parameter
Dust concentration
Filtration velocity (G/C)
Pressure loss before cleaning
Tank pressure
Valve opening time
Air temperature
Relative humidity
Total raw gas stream flow rate
Sample gas stream flow rate
Number of cleaning cycles
During conditioning period
During recovery period
Performance test duration
Value
18.4 ± 3.6 g/dscm (8.0 ± 1 .6 gr/dscf)
120±6m/h(6.6±0.3fpm)
1, 000 ±12 Pa (4 ±0.05 in. w.g.)
0.5 ± 0.03 MPa (75 ± 5 psi)
50 ± 5 ms
25 ± 2 °C (77 ± 4 °F)
50 ± 1 0%
5.8 ± 0.3 m3/h (3.4 ± 0.2 cfm)
1.13 ± 0.06 m3/h (0.67 ± 0.03 cfm)
—
10,000 cycles
30 cycles
6h±1 s
Beginning of table description. Table 1 is titled Test Conditions for Baghouse Filtration Products;
the Brand/Model is listed as SSTCL's FT-806 Filtration Media. The table describes the test
conditions that are specified in the QA/QC requirements for the test; all conditions were achieved
for this test. The table lists the test parameters in one column and their values in the next
column. The test parameters include such items as the dust concentration, filtration velocity, flow
rates, air temperature and humidity, and the number of cleaning cycles during the test. End of
table description.
Table 2. Baghouse Filtration Product Three-Run Average Test Results
for SSTCL's FT-806 Filtration Media
Verification Parameter
Outlet particle concentration at standard conditions3
PM25, g/dscm
(gr/dscf)
Total mass, g/dscmb
(gr/dscf)
Average residual pressure drop (A P), cm w.g. (in. w.g.)
Initial residual A P, cm w.g. (in. w.g.)
Residual A P increase, cm w.g. (in. w.g.)
Filtration cycle time, s
Mass gain of test sample filter, g (gr)
Number of cleaning cycles
At Verification Test
Conditions
0.0000560
(0.0000245)
0.0000566
(0.0000247)
3.32(1.31)
3.18(1.25)
0.27(0.11)
127
0.17(2.57)
170
Standard conditions: 101.3 kPa (14.7 psia) and 20 °C (68 °F).
Total mass includes the mass of PM2 5 and larger particles that passed through the fabric.
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Beginning of table description. Table 2 is titled Baghouse Filtration Product Three-Run Average Test
Results for SSTCL's FT-806 Filtration Media. The table lists the verified test results for this product.
The table lists the verification parameters in one column and their values at the verification test
conditions in the next column. The verification parameters listed include the outlet particle
concentration, the pressure drop characteristics, the filtration cycle time, the mass gain of the test
sample, and number of cycles during the test. End of table description.
In accordance with the generic verification protocol, this verification statement is applicable to filter
media manufactured between the signature date of the verification statement and 3 years thereafter.
sisned by Sally Gutierrez 10/13/2011 sisned by Jason Hill 8/8/2011
Sally Gutierrez Date Jason Hill Date
Director Director
National Risk Management Research Laboratory Air Pollution Control Technology Center
Office of Research and Development RTI International
United States Environmental Protection Agency
NOTICE: ETV verifications are based on an evaluation of technology performance under specific,
predetermined criteria and the appropriate quality assurance procedures. EPA and RTI make no express or
implied warranties as to the performance of the technology and do not certify that a technology will
always operate as verified. The end user is solely responsible for complying with any and all applicable
federal, state, and local requirements. Mention of commercial product names does not imply endorsement.
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