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 Go Green
with
Filters
~
To
apply Bi-Polar into your
building
HVAC System and to start saving money today, or contact Air Filtration
Systems at 702-313-2060.
Or by email.
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Our Bi-Polar products are available in both self-contained stand alone
units and in-duct models that are installed directly into your central HVAC
system. Whether for a commercial office building, a healthcare center or
hospital, a hotel room, hallway, kitchen or convention facility, a gym or sports
locker room, our products range in application from 500 sq. ft. to several
hundred thousand sq. ft. and everything in between.
Some models are ready off the shelf for straight installations
while other projects require a customized solution. Either way, we have the
right product for your application.
Please find below some examples of our commercial product
line to improve your indoor air quality;
| ATMOSAIR T400 |
 |
| Voltage |
110V W/12VDC |
| Energy Use |
15 Watts |
| Number of Tubes |
1 |
| Tube Size |
B |
| Capacity |
400 sq. ft. |
| Application |
Portable Tower with fan. Tower is 16”
tall. Ideal for small scale applications where a central HVAC system is
unavailable such as homes, conference rooms, offices, hospital rooms, nursing
homes, and assisted living rooms. |
| Efficiency |
See VOC Chart |
|
|
 |
| ATMOSAIR P2000/P2002 |
 |
| Voltage |
110V |
| Energy Use |
50 Watts |
| Number of Tubes |
1/2 |
| Tube Size |
D/E |
| Capacity |
Up to 1,500 sq. ft. |
| Application |
Portable unit with fan and filter that
can be placed on a flat surface. Ideal for applications where a central HVAC
system is unavailable such as conference rooms, offices, trash and compactor
rooms, classrooms, restaurants, training facilities, nursing homes, childcare
facilities, locker rooms and beauty and nail
salons. |
| Efficiency |
See VOC Chart |
|
|
|
| ATMOSAIR D100/FC100 |
 |
| Voltage |
110V/220V |
| Energy Use |
4/5/6 Watts |
| Number of Tubes |
1 |
| Tube Size |
C/D/E/F |
| Capacity |
Up to 3,000 cfm |
| Application |
In duct unit for smaller central HVAC
systems. Ideal for homes, office buildings, hospitals, classrooms, conference
rooms, restaurants, training facilities, nursing homes, locker rooms and
childcare facilities. OEM: This product is also available in customized versions
for application in room fan coil units commonly used in hotel rooms, multi-unit
residential buildings, etc. |
| Efficiency |
See VOC Chart |
|
|
|
| ATMOSAIR 500E/500F |
 |
| Voltage |
110V/220V |
| Energy Use |
45 Watts |
| Number of Tubes |
5 |
| Tube Size |
E/F |
| Capacity |
8,000/10,000 cfm |
| Application |
In duct unit for larger central HVAC
systems. Ideal for office buildings, hospitals, schools, nursing homes,
childcare facilities, locker rooms, training facilities, stadiums, food
processing facilities, manufacturing plants and sewage treatment
plants. |
| Efficiency |
See VOC Chart |
|
|
|
| ATMOSAIR CUSTOMIZED SCRUBBER |
 |
| Voltage |
110V/220V/480V |
| Energy Use |
per capacity |
| Number of Tubes |
varies |
| Tube Size |
varies |
| Capacity |
per spec |
| Application |
Custom engineered to meet the needs of
manufacturing facilities, sewage treatment plants, and other large scale
operations that purify the air prior to exhaust or recirculation. |
| Efficiency |
See VOC Chart |
|
|
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VOC's Chart
Volatile
Organic Compounds (VOC’s) are gases emitted from certain solids or
liquids. VOC’s include a variety of chemicals, some of which have short
and long-term health effects. Concentrations of many VOC’s are
consistently higher indoors (up to ten times higher) than outdoors.
Symptoms
associated with exposure to VOC’s include conjunctive irritation, nose
and throat discomfort, headache, allergic skin reaction, dyspnea,
nausea, emesis, epistaxis, fatigue, dizziness.
VOC’s
are emitted by a wide array of products numbering in the thousands.
Examples include: paints and lacquers, paint strippers, cleaning
supplies, pesticides, building material and furnishings, office
equipment such as copiers and printers, glues and adhesives, permanent
markers.
Bi-Polar Efficiency Lab Notes:
- N.A. Data not available.
- Slowly May not be controllable at high rates of emission
- (1) Conclusion of effectiveness derived from experience with chemicals in same family.
- (2) Ionization should only be used in combination with chemical filter.
- Chemical filters either
remove and/or oxidize chemical contaminants. According to Bentax N2,
O2, H2O, CO2 are released into the air stream.
- Ionization
creates the same by-products as chemical filters except where elements
other than C, H, O, N are present. When other chemicals are present
such as halogens, S, A, I etc., chemical filtration must be used to
remove substances.
Ionization Equipment Oxidation
|
|
| Name |
Formula |
Ionization |
Acetaldehyde
|
CH3CHO |
Good |
| Acetic Acid |
CH3COOH |
Good |
| Acetone |
CH3COCH3 |
1 = not tested/associated |
| Acetylena |
C3H3 |
1 = not tested/associated |
| Acrolein |
C3H4O |
Good |
| Allylchloride |
C3H5CL |
2 = with chemi |
| Ammonia |
NH3 |
Good |
| Amyl Acetate |
C7H14O2 |
1 = not tested/associated |
| Arsine. Chlorodiphenyl |
(C6H5)2AsCL |
2 = with chemi |
| Benzene |
C6H6 |
Slowly(1) |
| Butadiene |
C4H6 |
Slowly(1) |
| Butane |
C4H10 |
N.A. |
| Butylamine |
C4H9NH2 |
1 = not tested/associated |
| Butylmercaptan |
C4H9SH |
Slowly(2) = with chemi |
| Bu.....c Acid |
C3H7COOH |
Good |
| Caproic Acid |
C5H11COOH |
N.A. |
| Caprylic Acid |
C7H15COOH |
N.A. |
| Carbon Disulfide |
CS2 |
(1) = not tested/associated |
| Carbon Monoxide |
CO |
N.A. |
| Carbon Tetrachloride |
CCL4 |
No |
| Chlorine |
CL3 |
No |
| Chloroform |
CHCL3 |
(2) = with chemi |
| Chloropicrin |
CCLNO2 |
No |
| 3 Chioroprane |
C4H5CL |
(2) = with chemi |
| Creosol |
HOC6H4CH3 |
(1) = not tested/associated |
| Cyclohexane |
C6H12 |
N.A. |
| Cyclohexanone |
C6H10O |
N.A. |
| 1.1 Dichloroethane |
CH?CHCL |
(2) = with chemi |
| Diethylamine |
(C3H5)2NH |
Good |
| Dimethylmine |
(CH3)3NH |
Good |
| Ethanol |
C2H6O |
Good |
| Ethylacetate |
CH3COOC2H5 |
N.A. |
| Ethyl Acrylate |
C5H8O3 |
(1) = not tested/associated |
| Ethylene |
C2H4 |
Slowly |
| Formic Acid |
HCOOH |
N.A. |
| Formaldehyde |
HCHO |
Good |
| Hydrogen |
H2 |
N.A. |
| Hydrazine |
N2H4 |
(1) = not tested/associated |
| Hydrogen Sulfide |
H3S |
Slowly |
| Hydrogen Cyanide |
HCN |
N.A. |
| Indole |
C8H7N |
Good |
| Idoform |
CHI3 |
(2) = with chemi |
| Isopropanol |
C3H8O |
Good |
| Isovaleric Acid |
C4H9COOH |
Good |
| Methane |
CH4 |
(1) = not tested/associated |
| Methanol |
CH3OH |
Good |
| Methyl Acrylate |
C4C6O2 |
Slowly(1) = not tested/associated |
| Methyl Amine |
CH3NH3 |
Good |
| Methyl Chloride |
CH3CL |
(2) = with chemi |
| Methyl Chloroform |
CH3CCL3 |
(2) = with chemi |
| Methyl Ethylketone |
C4H8O |
(1) = not tested/associated |
| Methyl Mercaptan |
CH3SH |
(2) = with chemi |
| N-Methyl Pyrrolidine |
C5H11N |
N.A. |
| Methyl Sulfide |
(CH3)3S |
(1) = not tested/associated |
| Nicotine |
C10H14N2 |
Slowly |
| Nicotinic Acid |
C5H4NCOOH |
Slowly(1) = not tested/associated |
| Nitric Oxide |
NO |
(1) = not tested/associated |
| Nitrobenzene |
C6H5NO2 |
N.A. |
| Nitrogen Dioxide |
NO2 |
(1) = not tested/associated |
| Nitrous Oxide |
N2O |
(1) = not tested/associated |
| Phenol |
C6H5OH |
Slowly |
| Phosgene |
COCL3 |
N.A.(2) = with chemi |
| Propane |
C3H8 |
(1) = not tested/associated |
| Pyridene |
C5H5N |
Good |
| Skatole |
C9H9N |
Good |
| Stibine |
Sb(CH3)3 |
N.A. |
| Styrene |
C8H8 |
Good |
| Sulfur Dioxide |
SO2 |
(2) = with chemi |
| Sulfur Trioxide |
SO3 |
(2) = with chemi |
| Toluene |
C7H8 |
Slowly |
| Trichloroethylene |
C3HCL3 |
No |
| Triethylamine |
(C3H5)3N |
Slowly |
| Trimethylamine |
(CH3)3N |
Good |
| Vinyl Chloride |
CH3CHCL |
(2) = with chemi |
| Xylene |
C8H10 |
Good |
| Source: Bentax USA |
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