Filter Specifications
DATA SHEET
BL575-D – iPleat (Pleated Filter Element)
Bottom load style pleated filter element (PFE).
Fits most industry standard 5-1/8” diameter bag cup/hub connections.
Designed for smaller sized venturi bell mouth (< 3.3” diameter) or designs without venturis.
Short profile polyurethane top boot maximizes available filter area in shorter filter designs.
Replaces 5-3/4” diameter bag and cage assembly.
Standard Configuration
3.6” (91-mm) inner core diameter
1.0” (25-mm) nominal pleat depth
Standard Pleat Count – 45 Pleats
Molded top boot and bottom puck made from bright white soft
polyurethane rated to 225°F
Polyurethane, polypropylene and polyester components are safe for
food contact
Configuration Options
Special pleat counts (Available range: 35 – 60 pleats)
Polypropylene Core – Rated to 180°F
Galvanized and SS Perforated Metal (Spiral Formed) – For
temperatures >180°F and for high pressure / vacuum applications.
Grounded designs (with conductive media, metal core and stainless
steel grounding wire extensions).
Filter Media
Base filter media: 100% spunbond polyester (SBPE)
Filtration Efficiency: > 99.9 % for particle size range between
0.2 µ- 2.0 µ - BGIA Dust Class “M” rating
Weight: 8.0 oz/yd2 (260 g/m2)
Permeability: 15-30 acfm Frazier permeability at 0.5” w.g. dP
Mullenburst Stength: 350 psi
Media
Designation
FM0103
FM0105
FM0109
FM0203
FM0209
Nominal
Length
0.5 m
1.0 m
1.4 m
2.0 m
Media Description
100% spunbond polyester (SBPE)
100% SBPE with hydrophobic & oliophobic finish
100% SBPE with conductive grid
100% SBPE with ePTFE membrane
100% SBPE with conductive grid & ePTFE membrane
Overall Length
“L”
21.6”
41.3”
57.0”
80.7”
Filter Area (sf)
@ 45 Pleats
12.3
24.6
34.5
49.2
No. of
Straps
1
3
4
6
DATA SHEET
BL575-S – iPleat (Pleated Filter Element)
Bottom load style pleated filter element (PFE).
Fits most industry standard 5-1/8” diameter bag cup/hub connections.
Designed for all sized venturi bell mouth (up to 3-3/8” diameter).
Shallow pleat depth (22-mm) is more stable in heavy dust loading and offers better release of dense dust cakes.
Short profile polyurethane top boot maximizes available filter area in shorter filter designs.
Replaces 5-3/4” diameter bag and cage assembly.
Standard Configuration
3.89” (99-mm) inner core diameter
0.87” (22-mm) nominal pleat depth
Standard Pleat Count – 50 Pleats
Molded top boot and bottom puck made from bright white soft
polyurethane rated to 225°F
Polyurethane, polypropylene and polyester components are safe for
food contact
Configuration Options
Special pleat counts (Available range: 35 – 60 pleats)
Polypropylene Core – Rated to 180°F
Galvanized and SS Perforated Metal (Spiral Formed) – For
temperatures >180°F and for high pressure / vacuum applications.
Grounded designs (with conductive media, metal core and stainless
steel grounding wire extensions).
Filter Media
Base filter media: 100% spunbond polyester (SBPE)
Filtration Efficiency: > 99.9 % for particle size range between
0.2 µ- 2.0 µ - BGIA Dust Class “M” rating
Weight: 8.0 oz/yd2 (260 g/m2)
Permeability: 15-30 acfm Frazier permeability at 0.5” w.g. dP
Mullenburst Stength: 350 psi
Media
Designation
FM0103
FM0105
FM0109
FM0203
FM0209
Nominal
Length
0.5 m
1.0 m
1.4 m
2.0 m
Media Description
100% spunbond polyester (SBPE)
100% SBPE with hydrophobic & oliophobic finish
100% SBPE with conductive grid
100% SBPE with ePTFE membrane
100% SBPE with conductive grid & ePTFE membrane
Overall Length
“L”
21.6”
41.3”
57.0”
80.7”
Filter Area (sf)
@ 50 Pleats
11.9
23.8
33.3
47.6
No. of
Straps
1
3
4
6
DATA SHEET
BL575-U – iPleat (Pleated Filter Element)
Bottom load style pleated filter element (PFE).
Fits most industry standard 5-1/8” diameter bag cup/hub connections.
Designed for all sized venturi bell mouth (up to 3-3/8” diameter).
Universal boot combines larger core (to accommodate all sized venturis) and deep pleat (30-mm) to maximize available filter area
in short profile designs.
Replaces 5-3/4” diameter bag and cage assembly.
Standard Configuration
3.89” (99-mm) inner core diameter
1.18” (30-mm) nominal pleat depth
Standard Pleat Count – 45 Pleats
Molded top boot and bottom puck made from bright white soft
polyurethane rated to 225°F
Polyurethane, polypropylene and polyester components are safe for
food contact
Configuration Options
Special pleat counts (Available range: 35 – 60 pleats)
Polypropylene Core – Rated to 180°F
Galvanized and SS Perforated Metal (Spiral Formed) – For
temperatures >180°F and for high pressure / vacuum applications.
Grounded designs (with conductive media, metal core and stainless
steel grounding wire extensions).
Filter Media
Base filter media: 100% spunbond polyester (SBPE)
Filtration Efficiency: > 99.9 % for particle size range between
0.2 µ- 2.0 µ - BGIA Dust Class “M” rating
Weight: 8.0 oz/yd2 (260 g/m2)
Permeability: 15-30 acfm Frazier permeability at 0.5” w.g. dP
Mullenburst Stength: 350 psi
Media
Designation
FM0103
FM0105
FM0109
FM0203
FM0209
Nominal
Length
0.5 m
1.0 m
1.4 m
2.0 m
Media Description
100% spunbond polyester (SBPE)
100% SBPE with hydrophobic & oliophobic finish
100% SBPE with conductive grid
100% SBPE with ePTFE membrane
100% SBPE with conductive grid & ePTFE membrane
Overall Length
“L”
21.6”
41.3”
57.0”
80.7”
Filter Area (sf)
@ 45 Pleats
14.5
29.1
40.7
58.1
No. of
Straps
1
3
4
6
DATA SHEET
TL625D – iPleat (Pleated Filter Element)
Top load style pleated filter element (PFE)*.
Unique, aerodynamically designed high-flow orifice develops 30% more cleaning energy.**
Fits most industry standard 6.25” diameter tubesheet holes, fits tubesheet thickness from 1/8” to 1/4”.
Replaces 6.25” diameter bag and cage assembly.
Standard Configuration
3.3” (84-mm) inner core diameter
1.18” (30-mm) nominal pleat depth
Standard Pleat Count – 45 Pleats
Molded top boot and bottom puck made from bright white soft
polyurethane rated to 225°F
iSeal™ gasket made from flexible gray EPDM rubber
Polyurethane, EPDM rubber, polypropylene and polyester
components are safe for food contact
Configuration Options
Special pleat counts (Available range: 35 – 60 pleats)
Polypropylene Core – Rated to 180°F
Galvanized and SS Perforated Metal (Spiral Formed) – For
temperatures >180°F and for high pressure / vacuum applications.
Grounded designs (with conductive media, metal core and
electrically conductive EPDM tubesheet gasket (iSeal™ gasket).
Filter Media
Base filter media: 100% spunbond polyester (SBPE)
Filtration Efficiency: > 99.9 % for particle size range between
0.2 µ- 2.0 µ - BGIA Dust Class “M” rating
Weight: 8.0 oz/yd2 (260 g/m2)
Permeability: 15-30 acfm Frazier permeability at 0.5” w.g. dP
Mullenburst Stength: 350 psi
Media
Designation
FM0103
FM0105
FM0109
FM0203
FM0209
Nominal
Length
0.5 m
1.0 m
1.4 m
2.0 m
Media Description
100% spunbond polyester (SBPE)
100% SBPE with hydrophobic & oliophobic finish
100% SBPE with conductive grid
100% SBPE with ePTFE membrane
100% SBPE with conductive grid & ePTFE membrane
Overall Length
“L”
21.0”
40.7”
56.4”
80.0”
Filter Area (sf)
@ 45 pleats
14.5
29.1
40.7
58.1
*U.S. Patent No. D 626,208 & Patent Pending
**Confirmed by Independent 3rd party testing
No. of
Straps
1
3
4
6
GASKET 7.5” O.D.
Technical Data Sheet
Filter media:
FM0103
Construction:
100% Polyester spunbond media with point bond finish
Color:
White
Weight:
7.7 oz/yd2 (260 g/m2)
Thickness:
0.024 inch (0.66 mm)
Permeability:
18 – 26 ft3/ft2/min @ 1/2" H2O – ASTM D 737
9.1 – 13.2 cm3/cm2/sec @ 125 Pa – ASTM D 737
86 – 125 l/dm2/min @ 200 Pa – DIN 53887
Max. Operating Temperature:
265°F (130°C)
Tensile Strength:
200 lbs/2-in. strip (91 kg/5 cm strip) – MD
125 lbs/2-in. strip (57 kg/5 cm strip) – CMD
Mullen Strength:
350 lbs/in2 (24.6 kg/cm2)
Dust Release Properties:
Very good
Filtration Efficiency:
> 99.9 % for particle size range between 0.2 µ- 2.0 µ
BGIA-Filter Class:
“M” – per Test Method: DIN EN 60335–2–69
FDA conformity:
FDA - 21 CFR 177.1630
30.31 LFGB
This data is to be considered as typical, and for information purposes only. All specifications are subject to change.
Technical Data Sheet
Filter media:
FM0203
Construction:
100% Polyester spunbond media with point bond finish and
laminated with ePTFE membrane
Color:
White
Weight:
7.7 oz/yd2 (260 g/m2)
Thickness:
0.024 inch (0.66 mm)
Permeability:
4.0 – 8.0 ft3/ft2/min.@ 1/2" H2O
19 - 38 l/dm2/min. @ 200Pa
Max. Operating Temperature:
265°F (130°C)
Tensile Strength:
200 lbs/2-in. strip (91 kg/5 cm strip) – MD
125 lbs/2-in. strip (57 kg/5 cm strip) – CMD
Mullen Strength:
350 lbs/in2 (24.6 kg/cm2)
Dust Release Properties:
Excellent
Filtration Efficiency:
> 99.98 % for particle size 0.3 µ- and larger
Testing Method:
ASHRAE 52.2 (Fractional Efficiency)
FDA conformity:
FDA 21 CFR 176.170
30.31 LFGB
This data is to be considered as typical, and for information purposes only. All specifications are subject to change.
Technical Data Sheet
Filter media:
FM0109
Construction:
100% Polyester spunbond media with point bond finish and printed
with a conductive ink pattern on both sides of media
Color:
White with black printing in a 1” cross-hatch pattern on both sides
of media
Weight:
7.8 oz/yd2 (260 g/m2)
Thickness:
0.024 inch (0.66 mm)
Permeability:
18 - 26 ft3/ft2/min.@ 1/2" H2O
400 - 650 m3/m2/Std. @ 200Pa
Max. Operating Temperature:
265°F (130°C)
Tensile Strength:
200 lbs/2-in. strip (91 kg/5 cm strip) – MD
125 lbs/2-in. strip (57 kg/5 cm strip) – CMD
Mullen Strength:
350 lbs/in2 (24.6 kg/cm2)
Dust Release Properties:
Very good
Filtration Efficiency:
> 99.9 % for particle size range between 0.2 µ- 2.0 µ
BGIA-Filter Class:
“M” – per Test Method: DIN EN 60335–2–69
FDA conformity:
21 CFR 177.1630
30.31 LFGB
Electrical Conductivity:
<1.0 x 106 Ohm/Square at 500V at 12.0”;
Static Decay </=0.5 seconds @ 10% cut off
This data is to be considered as typical, and for information purposes only. All specifications are subject to change.
Installation Procedures for TL and MTL Style Filters
Step 1 – Preparation for Installation
Remove old filters from the dust collector. The tubesheet/cell plate and clean air plenum (CAP) should
be thoroughly cleaned to remove all residual dust.
Inspect the tubesheet/cell plate holes for build up or corrosion and use a wire brush to remove buildup
of any material that may interfere with the filter seal.
In the case of conductive media/filter designs utilizing the electrically conductive tubesheet gasket,
ensure that the inside diameter of the tubesheet hole is not coated or painted, as this is the area where
electrical grounding will occur.
In the case of filters with ePTFE membrane, the tubesheet gasket will help protect the pleat tips during
installation, but care should be taken during staging and handling of the filter elements into the dust
collector. Cardboard or other smooth materials should be used to cover potential scrape hazards such
as door frames and handrails. Care should be taken to stack or store the filters in such a manner to
prevent or minimize the scraping of the fragile ePTFE membrane surface on the pleats.
Inspect each filter element for damage from shipping, storage, or handling. Do not use damaged
elements; they may leak or fail prematurely.
If the filter element has a stainless steel ground wire, please see additional instruction sheet
insert for proper attachment of the grounding wire.
Step 2 – Installation of Tubesheet Gasket
Place the gasket in the tubesheet hole with
beveled bottom lip first (the outer top flange
with printing should be facing upward).
Press the tubesheet gasket gently into the
tubesheet hole by hand, it will self-center and
seat. A properly installed gasket will have no
deformations around the ID of the gasket, and
the top flange will be flush against the top of the
tubesheet.
Step 3 – Installation of the Pleated Filter Element
Place the bottom puck of the filter element inside
the tubesheet gasket and press the filter down
through the inside diameter of the gasket.
Lower the pleated filter element straight down
(plumb) through the tubesheet gasket.
Once the filter is lowered all the way into the
tubesheet gasket, the final sealing of the filter into
the gasket will require slow, firm pressure to seat
the stepped top down into the gasket and kick out
the bottom flange to engage the seal.
Stepping on the filter top is acceptable as long as
steady, even pressure is applied.
Installation Procedures for BL Style Filters
Step 1 – Preparation for Installation
Inspect each filter element for damage from shipping, storage, or handling. Do not use damaged elements;
they may leak or fail prematurely.
Remove old filters from the dust collector. The bag cup / venturi connections should be thoroughly cleaned to
remove all residual dust. Use a wire brush to remove buildup of any material that may interfere with the filter
seal.
In the case of filters with ePTFE membrane, care should be taken during staging and handling of the filter
elements into the dust collector. Cardboard or other smooth materials should be used to cover potential
scrape hazards such as door frames and handrails. Care should be taken to stack or store the filters in such a
manner to prevent or minimize the scraping of the fragile ePTFE membrane surface on the pleats.
If the filter element has a stainless steel ground wire, please see Additional Instructions for proper
attachment of the ground wire.
Step 2 – Installation of the Pleated Filter Element
Slowly push the filter element up onto
the bag cup until the flexible boot snaps
into place on the groove.
Pull the element down slightly and rotate
it to ensure the internal bead is properly
engaged in the groove in the bag cup /
venturi connection (See inset for
cutaway detail).
Inset showing proper
bead/groove alignment.
Install the clamp between the outer groove markings on the flexible boot.
Use of a lined clamp is strongly recommended to prevent cutting the
polyurethane boot.
Using a nut driver, hand tighten the clamp, making sure it stays in place
between the outer groove markings. Do not over tighten. Over tightening
may cut the polyurethane.
After tightening, you should not be able to rotate the filter element by hand.
Make sure the filter elements hang plumb and are not touching each other
or obstructions such as the sidewalls or internal stiffeners.
Additional Instructions for Ground Wire Installation
Metal Bag Cup or Venturi
Stainless Steel Ground Wire
looped over boot top to ID of filter
looped beneath band clamp
welded to metal core
In the case of conductive media or filter designs utilizing metal core and stainless steel ground wire extension,
ensure that the ground wire is folded over the boot top to ID of filter and down past the bead on the mold, to
properly seal the filter and to allow a firm connection for grounding to the metal bag cup / venturi connection as the
clamp is tightened. Also ensure the ground wire is located beneath the clamp before the clamp is tightened.
In the case of a non-metal synthetic (nylon, plastic) bag cup connection, DO NOT INSTALL PER ABOVE METHOD.
An alternative grounding method will be required.
BL– Metal Core with Ground Wire Design
Metal Bag Cup / Venturi
Connection
Stainless steel ground
wire (welded to metal
core)
Metal inner core
Plain or Conductive
Spunbond Polyester
Media
Bottom Load – grounding path is:
1.
Media (if conductive)
2.
Metal core
3.
Ground wire
4.
Metal bag cup connection
5.
Tubesheet
TL – Metal Core with Ground Wire Design
Polyurethane
top mold
Stainless steel ground
wire (welded to metal
core)
Metal inner core
Plain or Conductive
Spunbond Polyester
Media
Conductive
EPDM gasket
TL – Metal Core with Ground Wire Design
Polyurethane
top mold
Conductive
EPDM gasket
Stainless steel
ground wire
(welded to metal
core)
Metal inner core
Plain or Conductive
Spunbond Polyester
Media
Top Load – grounding path is:
1. Media (if conductive)
2. Metal core
3. Ground wire
4. Conductive gasket
5. Tubesheet
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