AIR CLEANERS/
FILTERS
504,887M
04/2010
HEALTHY CLIMATE®
HEPA BYPASS AIR FILTRATION SYSTEM
HOMEOWNERS MANUAL & DEALER INSTALLATION INSTRUCTIONS
FOR HEALTHY CLIMATE® MODELS HEPA-20, HEPA-40, HEPA-60
Rules for Safe Installation and Operation
Shipping and Packing List
Package 1 of 1 contains:
READ AND SAVE
THESE INSTRUCTIONS!
1 - HEPA System
1 - Complete Filter Set (Packed inside Unit)
1 - Warranty Certificate
Please read instructions before installing and using the
HEPA Bypass Air Filtration System (HEPA system).
This will help you obtain the full benefit of the HEPA
system you have selected. It will also help you to
avoid needless service costs.
1 - Installation Instructions (this manual)
HEPA System Models
1. Read this manual carefully. Failure to follow these
rulesand instructions could cause a malfunction of
air filter or unsatisfactory service and could void
your warranty.
HEPA-20 (X4912) is designed to filter air up to a
rate of 180 cfm
HEPA-40 (X4913) is designed to filter air up to a
rate of 320 cfm
2. Follow a regular service and maintenance schedule
to ensure efficient operation.
HEPA-60 (X4914) is designed to filter air up to a
rate of 500 cfm
3. For safety and optimized performance of your
HEPA system, all installation and maintenance
must be performed by a Healthy Climate® dealer.
The installer should be made aware of your
!
WARNING
indoor air quality situation and be familiar with your
heating, ventilation and air conditioning equipment.
Electrical Shock Hazard.
Can cause injury or death.
4. Remove HEPA cartridge packing materials before
initial start-up of this product.
Disconnect all electrical power supplies
before servicing.
a. Remove safety screws from HEPA filter access
panel.
b. Unlatch the four retaining clips and lift off HEPA
filter access panel.
c. Remove and discard the cardboard packing
material between the HEPA cartridge and the filter
access panel.
d. Ensure HEPA cartridge is installed and locked into
place (brace the unit, press HEPA cartridge down
and turn it clockwise to lock it into place.)
e. Replace the HEPA filter access panel and latch it
with the four retaining clips.
Do not operate equipment without
access panels in place
!
WARNING
Risk of property damage, injury or death.
Installation, adjustments, alterations, service and
maintenance must be performed by a Healthy
Climate® dealer.
f. Re-install safety screws into HEPA filter access
panel.
!
WARNING
5. High particulate distribution may occur during initial
start-up of this product after installation or after
scheduled filter changes. Individuals who are
highly sensitive to airborne particulates should not
be in the building and allow 24 hours of operation
for removal of particulates from occupied spaces
before re-entry.
Risk of Carbon Monoxide Poisoning.
Can cause injury or death.
Do not operate equipment without access panel in
place. Operation of this equipment without all access
panels in place may cause gas fumes from the heat-
ing system to be drawn into occupied spaces.
General Information
Media Filters
The HEPA System’s 3 Stage Filtration Process
The 3 stage filtration process is used to create a very
effective filtration system. Each filter is independent
and can be changed individually.
Media filters strain particulates from the air. The filter
media needs to have tiny holes to allow air to pass
through, but not particulates. Filter types vary for all
sorts of purposes. The most effective and proven filter
media is HEPA. HEPA filter media is 99.97% efficient
at capturing particles which are 0.3 micron in size or
larger.
•
Stage 1: Carbon pre-filter - The inexpensive carbon
pre-filter removes larger particulates from the air, thus
prolonging the life of the HEPA filter.
•
Stage 2: HEPA - The HEPA filter removes 99.97%
Inner Charcoal Filter/Carbon Canister
of particulates 0.3 micron and larger. The cleaned air
then passes through the third stage filter.
Carbon media is used to capture chemicals and odors,
also referred to as V.O.C.’s. Chemicals and odors
cannot be captured with media type filters. Activated
carbon attracts chemicals and odors and holds them.
If air passes through the carbon filter before particu-
lates are removed, the surface of the carbon quickly
gets covered with particulates, rendering it ineffec-
tive at capturing chemicals and odors. If particulates
are removed from the air with a HEPA filter, virtually
the entire surface area of the carbon can be used to
capture chemicals and odors. This increases the effi-
ciency and filter life of the inner charcoal filter.
•
Stage 3: Inner Charcoal Filter - The inner charcoal
filter is 1/2 an inch thick to give it plenty of surface
area for removing chemicals and odors from the air.
OPTIONAL UPGRADE: The stage 3 Inner Carbon
Filter may be replaced by an optional heavy duty
granulated coconut shell carbon canister. The VOC
Canister offers increased capacity removal of chemi-
cals and odors. Filled with granulated coconut shell
carbon, the surface area available for adsorption of
gas and chemical pollution is approximately 60 to
70 million square feet. The filter upgrade captures
many contaminents in the air and holds them safely in
the carbon. The increased capacity of this filter also
extends the performance life. The VOC Canister also
captures low level ozone from outside air and uses
the ozone to turn the filter into an active system which
actually destroys VOCs rather than just holding them.
Separate HEPA and Carbon Filters
HEPA and carbon filters have different life spans. It is
important for a filtration system to keep the filter com-
ponents independent from each other, so that the filter
that is dirty/saturated can be changed. This is more
economical than a system where you need to throw
out two or three filters when only one needs changing.
Product Application Guidelines
Size of House vs. Air Changes per Hour
Size of House*
2
3
2
3
2
2
2
2
2
2
Model
Unit
1,000 ft
1,200 ft
1,500 ft
1,800 ft
2,000 ft
2,500 ft
3,000 ft
3,500 ft
3
3
3
3
3
3
(8,000 ft ) (9,600 ft ) (12,00 ft ) (14,400 ft ) (16,000 ft ) (20,000 ft ) (24,000 ft ) (28,000 ft )
HEPA-20
HEPA-40
HEPA-60
1.35
2.4
1.13
2.0
0.9
1.6
2.5
--
--
--
--
--
--
--
1.3
2.1
1.2
1.9
1.0
1.5
3.8
3.1
1.3
1.1
* Chart based on homes with 8 ft. ceilings.
Notes:
• Industry experience indicates that one (1) air change per hour generally provides adequate air cleaning. Actual
results will depend on multiple factors such as outdoor particulate levels, infiltration rate, indoor activities etc.
• The chart is based on an infiltration rate of 0.3 air changes per hour, which is typical for residential construction.
Higher infiltration typically brings in more particulates and thus increases the air changes per hour needed for
HEPA bypass filtration. Other particulate sources in the house will require higher air changes per hour.
• The chart is based on continuous operation of the HEPA system. If the HEPA system is cycled, the capacity
of the filter needs to be increased. For example, if the HEPA system is “ON” only half the time, then the capac
ity of the unit needs be doubled or additional units need to be installed.
• The more air changes per hour provided, the more effective a HEPA system will be. People with sensitivities
may desire a higher number of air changes per hour for cleaner air.
3
Parts Identification
Cabinet Parts
HEPA Cartridge Parts
Filter Section Access
Panel
HEPA Filter
(STAGE2)
Retaining Clips (4)
Inlet Collar
Carbon Pre-Filter
(STAGE 1)
HEPA Filter Mesh
(Protects HEPA
Filter)
Cabinet
Outlet Collar
On/Off Switch
Inner Charcoal Filter
(STAGE 3)
Motor Section
Access Panel
figure 1.
figure 2.
Inside Cabinet (Filter Section)
Optional Coconut Shell Carbon Canister
RECOMMENDED for
greater capacity removal
of chemicals and odors.
Located inside the HEPA
filter cartrige to provide
the third and final stage of
filtration.
Motor/Impeller
Filter Adapter
(threaded)
Replace inner charcoal
filter when using the
‘O’ Ring
optional carbon canister.
figure 3.
figure 4.
Specifications
HEPA-20
180 cfm
25 lbs.
HEPA-40
320 cfm
35 lbs.
HEPA-60
500 cfm
40 lbs.
Nom. Air Flow @ 120VAC @ 0.0” E.S.P.
Weight (max - unpackaged)
Supply Voltage
Nom. Measured Power Consumption
Motor Current Draw
120 VAC
125 Watts
1.0 amps, 60hz
8”-round
120 VAC
125 Watts
1.0 amps, 60hz
10”-round
8”-round
120 VAC
225 Watts
1.8 amps, 60hz
10”-round
8”-round
Air Inlet Collar (max)
Air Outlet Collar (max)
6”-round
Operating Temp. Range - Return air (ºF)
30 to 95
30 to 95
30 to 95
HEPA filter efficiency = 99.97% @ 0.3 micron particles
Ambient temperature range: -40ºF to 130ºF
4
Physical Dimensions of Units
A
H
Filter Section Access Panel
E
C
Air Inlet
B
F
Air Outlet
D
G
Motor Section Access Panel
MODEL NO.
A
B
C
D
E
HEPA-20
14.1
18
8.0
6.0
1.0
(358) (457) (203) (152) (25)
16.13 28.25 10.0 8.0 1.75
(410) (718) (254) (203) (44)
16.13 28.25 10.0 8.0 1.75
(410) (718) (254) (203) (44-)
HEPA-40
HEPA-60
I
A
F
G
H
I
J
HEPA-20
HEPA-40
HEPA-60
2.0
(51)
6.5
(165) (25)
6.5 1.0
(165) (25)
1.0
(25)
1.0
9.0
15.25 1.4
(229) (387) (36)
11.0 17.875 1.875
(279) (454) (48)
11.0 17.875 1.875
(279) (545) (48)
J
Dimensions in inches (mm)
figure 5.
5
Operation
1. Make sure that the unit is plugged into a grounded outlet (120 Volt, 60 Hz).
2. For optimum performance, the HEPA system should operate when the indoor air handler/furnace blower is
on. An optional air handler/furnace blower interlock kit can be ordered for ‘cycled’ operation. (see
Replacement Parts)
3. Turn the unit on by pressing the on/off switch to the ‘1’ position. The switch should light up when the unit is
on.
4. To turn the unit off, press the on/off switch to the ‘0’ position. The switch light should turn off when the unit
is off.
Maintenance
Proper care and maintenance of your HEPA system
Filter Changing Guidelines
will ensure years of service. The unit must be turned
off during service/maintenance or when filters are
being changed.
Carbon Pre-Filter:
Dust and other large particles will collect on the car-
bon pre-filter over time. The color of the filter will
change as particulates build up on the carbon pre-filter.
Change the carbon pre-filter when you can see the par-
ticulate build up start to clog up the carbon pre-filter.
It is recommended that gloves and a filtered
breathing mask be worn during filter replacement.
!
HEPA Filter:
WARNING
As the HEPA filter captures particulates, it will darken
over time. Replace the HEPA filter when it darkens to
the level seen in example D.
Electrical Shock Hazard.
Can cause injury or death.
Disconnect all electrical power supplies
before servicing.
A. New
B. Used
C. Used
D. Replace
Do not operate equipment without
access panels in place
!
CAUTION
Inner Charcoal Filter:
The inner charcoal filter will rarely look used. This fil-
ter captures odors and gasses, yet the filter’s appear-
ance will not change. When this filter has reached
it’s maximum adsorbancy of odors and gasses, it will
no longer work. Replace this filter when it no longer
seems to capture odors, at least every 3 months,
Risk of Sharp Edges Hazard.
Equipment sharp edges can cause injuries.
Avoid grasping equipment edges without protective
gloves.
Filter Change Schedule
Note: Failure to properly maintain your HEPA system
will decrease the efficiency and air flow.
whichever occurs first.
Carbon Pre-Filter
For enhanced odor control, the Coconut Shell Carbon
Canister provides up to one year of odor capture.
HEPA Filter
Inner Charcoal Filter
Carbon Pre-Filter: 12 months
HEPA Filter: 2 to 5 years
Inner Charcoal Filter: 3 months
Optional Coconut Shell Carbon Canister: 1 year
NOTE: Filter life is based on average air content. Some
filters may need to be changed more often due to higher
amounts of dust, humidity, or chemicals found in your
ambient air. Additionally, people who are more sensitive
to these air borne contaminates may desire more fre-
quent filter changes.
Optional Coconut Shell
Carbon Canister
replaces Inner Charcoal Filter
Figure 12.
6
Healthy Climate® Dealer Filter Change Instructions
g. Repeat steps d through f with the other clips,
!
WARNING
spacing them evenly on the carbon pre-filter to
give it even support.
Electrical Shock Hazard.
Can cause injury or death.
3. Inner Charcoal Filter Replacement
a. Look inside the HEPA cartridge to locate the two
ends of the inner charcoal filter.
Disconnect all electrical power supplies
before servicing.
b. Pull one end of the old inner charcoal filter in and
bend it into a loose roll so it can be removed.
c. Remove the inner charcoal filter from the HEPA
cartridge.
d. Remove plastic shrink wrap from the new inner
charcoal filter.
Do no operate equipment without
access panels in place
!
CAUTION
Risk of Sharp Edges Hazard.
Equipment sharp edges can cause injuries.
e. Unroll the inner charcoal filter and roll it up in the
opposite direction (this makes the filter follow a
more contoured profile against the inner HEPA
filter surfaces and helps keep it in place), place
the rolled inner charcoal filter inside the HEPA
cartridge and gently unroll it until the ends ‘butt’
together and the filter is snug against the HEPA
filter mesh.
Avoid grasping equipment edges without protective
gloves.
It is recommended that gloves and a filtered
breathing mask be worn during filter replacement
to avoid breathing particulates (dust, mold, pollen,
etc.) captured on the filter that become airborne
during the filter(s) changeout.
The old filters should be wrapped and sealed in
plastic bags immediately upon removal from the
unit to avoid distributing particles throughout the
house during the process of disposal.
4. HEPA Filter Replacement
a. If replacing the HEPA filter with a new filter, discard
old HEPA filter and use new when replacing the
HEPA filter into the unit.
(continued on pg. 11)
1. Accessing the filters
a. Remove safety screws from HEPA filter access
panel.
b. Unlatch the four retaining clips and lift off HEPA
filter access panel.
c. Bracing the unit so it does not move, turn the
HEPA cartridge counter-clockwise and lift out.
Figure 13.
Figure 14.
Figure 15.
2. Carbon Pre-Filter Replacement
a. Locate the clips holding the carbon pre-filter in place.
Remove them and pull the carbon pre-filter off.
NOTE: The carbon pre-filter may contain
contaminants, remove it slowly to avoid releasing
particles back into the air.
b. Remove plastic shrink wrap from the new carbon
pre-filter.
c. Wrap the new carbon pre-filter around the HEPA
filter, making sure that the ends overlap.
d. Hook one end of the clip onto the overlapping
section of carbon pre-filter as shown in figure 13.
e. Press down on the hooked section while you pull it
across, stretching the carbon pre-filter tighter. as
shown in figure 14.
f. Push down on the other end of the clip once the
carbon pre-filter is stretched tight to lock the clip
into place as shown in figure 15. Release clip, it
should hold tight on both ends of the carbon pre-
filter keeping it together.
7
Healthy Climate® Dealer Filter Change Instructions
b. With each HEPA replacement filter, a new ‘o’ ring
the base meet the HEPA filter.
is provided. The old one is removed by pinching it e. Support the carbon canister with your fingers so it
between two fingers and pulling it off the collar on
the blower deck.
does not slide out when replacing the HEPA
cartridge assembly into the unit.
c. Discard old ‘o’ ring.
d. Place the new ‘o’ ring onto the collar and slide it
down to the base of the blower deck.
6. Installing the HEPA Filter Cartridge
a. With the filters changed or inspected, all 3 filters
are ready to be placed back into the unit. Place
the HEPA cartridge gently into the unit (if a carbon
canister is being used, take care not to let it slide
out as it is heavy and could damage the unit)
b. When the HEPA cartridge is in place, brace the unit,
press down and turn it clockwise to lock it into place.
c. Replace the HEPA filter access panel and latch it
with the four retaining clips.
5. Optional Coconut Shell Carbon Canister
a. Remove old carbon canister (if installed) by
pulling it out from the inside of the HEPA filter.
b. If replacing an inner charcoal filter with the carbon
canister, remove inner charcoal filter by following
the steps a. to c. in section 3.
c. Remove the plastic shrink wrap from the new
carbon canister.
d. Slide the carbon canister into the HEPA cartridge,
smaller, tapered end first. The carbon canister
should slide all the way in until the metal edges at
d. Re-install safety screws into HEPA filter access
panel.
e. Plug the unit back into a power outlet and turn it on.
Healthy Climate® Dealer Motor Assembly Replacement Instructions
3. Installing the new motor assembly
!
WARNING
a. Slide the new motor into the motor mount making
sure that the wires go through the smaller hole
offset from the center of the bracket.
Electrical Shock Hazard.
Can cause injury or death.
b. Secure the new motor to the motor mount with the
four screws removed in step 2c.
d. Connect the wires as follows:
Disconnect all electrical power supplies
before servicing.
- Blue wire from motor to the on/off switch.
- Yellow/green wire from motor to the ground post.
- Brown wire from the motor to a capacitor post.
- Black wire from the motor to the other capacitor
post.
Do no operate equipment without
access panels in place
Do not use this fan with any solid-state
speed control device
- White wire from the on/off switch to the capacitor
via the black wire piggyback post.
- White wire from the power cord to the capacitor
via the other white wire’s piggyback post.
4. Closing the unit
a. Replace the motor section access panel and
secure it with the eight screws removed in step 1b.
b. Plug the unit into it’s electrical source and turn it on.
!
CAUTION
Risk of Sharp Edges Hazard.
Equipment sharp edges can cause injuries.
Avoid grasping equipment edges without protective
gloves.
1. Accessing the motor assembly
a. Turn the unit off and unplug it from any electrical
source before opening the cabinet.
b. To remove the motor section access panel, remove
the four screws on the panel, and lift off panel.
2. Removing the old motor assembly
a. Disconnect all four motor wires from switch, ground
post and capacitor.
b. Disconnect the two white wires from the capacitor.
c. Separate the motor from the motor mount by
removing the four screws found in figure 16.
d. Slide the motor out from under the motor mount
to remove it from the unit.
Figure 16.
8
Healthy Climate® Dealer Installation Instructions
Forced air handler/furnace systems:
The HEPA system should be installed as a bypass system, with part of the return ducted into the HEPA system.
The filtered air is then rerouted back into the return air, and continues through the system to be heated/cooled.
Typical Return to Return Application
For homes with upflow forced air handler/furnace
systems.(Air handler/furnace is shown in a typical base-
ment. See
Typical Return to Return Application
For homes with horizontal forced air handler/furnace
systems. (Air handler/furnace is shown in an typical
attic. See figure 7.)
A
Figure 6.)
Distance between A and B should
be 8’ to 16’ for best results
Air Handler/
Furnace
A
B
Distance between
A and B should
be 8’ to 16’ for
best results
Air Handler/
Furnace Filter
B
HEPA System
Figure 7.
Figure 6.
NOTE: This filtration system is an ADDITIONAL filter, and does NOT replace the existing air handler/furnace system filter.
collars face down, metal elbows must be connected
to both inlet and outlet collars.
Preparation:
Here are some things to consider as you decide where
to install the HEPA system.
• Each connection must be sealed with aluminum
tape or mastic, including all take offs.
• Installed duct runs should be as straight as possible
(if the duct runs are too long, reduced CFM may
result).
• If duct is exposed to unconditioned air, externally
insulated flex duct is highly recommended.
• Externally insulated flex duct can also be used for
noise reduction purposes
• For best indoor air quality, do not use ductboard or
fiberglass inside of ducts.
Electricity:
• The unit must be plugged into a grounded 120V,
60Hz outlet.
Required Materials for Installation of Unit:
For Model: HEPA-20
Location:
• Make sure there is room to open the HEPA filter
access panel for filter changes/inspections.
• Keep the HEPA system in a location where you
can still access the air handler/furnace filter.
• Keep the HEPA system away from possible water
damage.
• Vibration pads will reduce vibration for installations
where the unit is placed on the floor.
• Install HEPA System on floor or suspended platform.
If the unit is suspended, screws must not penetrate
through the cabinet. Make sure that you have the
proper chains/straps/joists and equipment to keep
unit secure.
Inlet (Marked as ‘Air In’ on unit):
8” diameter flex or rigid duct (as required)
6” diameter flex or rigid duct (as required)
8” diameter 45 degree takeoff
6” diameter 45 degree takeoff
Aluminum tape or mastic
Misc. hanging materials - field provided
For Models: HEPA-40 & HEPA-60
10” diameter flex or rigid duct (as required)
8” diameter flex or rigid duct (as required)
10” diameter 45 degree takeoff
• Inlet ducts should be installed upstream of any
humidifiers and be installed on the main return.
• Inlet duct should be installed at least 8 ft. away
from the outlet duct on the main return.
• Use a 45 degree takeoff to draw air from the main
return.
Outlet (Marked as ‘Clean Air Out’ on unit):
• Outlet duct should be installed as close to the air
handler/furnace inlet as possible but not directly into
the return air elbow of the main return.
• To reduce static pressure, install outlet with a 45
degree takeoff directly up-line from the return air elbow.
• If the unit is being installed independently of any
other system, room diffusers are recommended to
help distribute airflow evenly in the occupied space.
Ducting:
8” diameter 45 degree takeoff
Aluminum tape or mastic
Misc. hanging materials - field provided
NOTE: Be sure to review ‘Rules for Safe Installation
and Operation’ on page 1 of this document before
start-up of this unit.
• If HEPA system is installed where inlet and outlet
9
Healthy Climate® Dealer Installation Instructions
Forced air handler/furnace system with an HRV/ERV
This application provides filtration of all Outdoor Air (OA) that is brought into the home through the HRV/ERV,
thus reducing the introduction of dust, pollen and mold from the outdoor air. For systems that have HRV/ERV
units installed, we recommend ducting the ‘fresh air’ outlet from the HRV/ERV into the HEPA system. If the
HRV/ERV CFM (cubic feet per minute) rating is lower than that of the HEPA system, an additional return needs
to be installed into the HEPA system (See figure 8.) The output air from the HEPA system then needs to be
installed into the main return of the air handler/furnace system.
Example of Return
to Return Installation
with an HRV/ERV
For homes with a forced
Preparation:
Here are some things to consider as you
decide where to install the HEPA system
with an HRV/ERV.
/ERV
air handler/furnace sys-
tem and an HRV/ERV
system.
Location:
• Make sure there is room to open the
Additional Return
HEPA filter access panel for filter
changes/inspections.
• Keep the HEPA system in a location
where you can still access the air han-
dler/furnace filter.
Air Handler/Furnace
Air Handler/Furnace Filter
HEPA System
Figure 8.
• Keep the HEPA system away from pos-
sible water damage
• Vibration pads will reduce vibration for
installations where the unit is placed on
the floor.
NOTE: This filtration system is an ADDITIONAL filter, and does NOT
replace the existing air handler/furnace system filter.
• Each connection must be sealed with aluminum
tape or mastic, including all take offs.
• Installed duct runs should be as straight as possible
(if the duct runs are too long, reduced CFM may
result).
• If duct is exposed to unconditioned air, externally
insulated flex duct is highly recommended.
• Externally insulated flex duct can also be used for
noise reduction purposes
• For best indoor air quality, do not use ductboard or
fiberglass inside of ducts.
Electricity:
• Install HEPA System on floor or suspended platform.
If the unit is suspended, screws must not penetrate
through the cabinet. Make sure that you have the
proper chains/straps/joists and equipment to keep
unit secure.
Inlet (Marked as ‘Air In’ on unit):
• Most HRV/ERV systems will not move as much air
as the HEPA system. For these systems, install an
additional return from another treated air source
into the HEPA system.
• The unit must be plugged into a grounded 120V,
60Hz outlet.
• If using an additional return duct, it should be
installed upstream of any humidifiers. The fresh
air outlet of the HRV/ERV should be “Y” connected
to the additional return duct then connected to the
inlet of the HEPA system.
Required Materials for Installation of Unit:
For Model: HEPA-20
8” diameter flex or rigid duct (as required)
6” diameter flex or rigid duct (as required)
6” diameter 45 degree takeoff
• The additional return duct (if any) should be
installed at least 8 ft. away from the outlet duct on
the main return.
Aluminum tape or mastic
• Duct both the HRV/ERV and the additional return
into the inlet of the HEPA system.
Misc. hanging materials - field provided
For Models: HEPA-40 & HEPA-60
10” diameter flex or rigid duct (as required)
8” diameter flex or rigid duct (as required)
10” diameter 45 degree takeoff
8” diameter 45 degree takeoff
Aluminum tape or mastic
Misc. hanging materials - field provided
Outlet (Marked as ‘Clean Air Out’ on unit):
• Outlet duct should be installed as close to the air
handler/furnace inlet as possible but not directly into
the return air elbow of the main return.
• To reduce static pressure, install outlet with a 45
degree takeoff directly up-line from the return air elbow
of air handler/furnace.
Ducting:
NOTE: Be sure to review ‘Rules for Safe Installation
and Operation’ on page 1 of this document before
start-up of this unit.
• If HEPA system is installed where inlet and outlet
collars face down, metal elbows must be connected
to both inlet and outlet collars.
10
Healthy Climate® Dealer Installation Instructions
Independent Operation:
The HEPA systems can be used independently of any other equipment! The inlet and outlet of the filtration
system can be ducted into the same room to create a cleaner environment almost anywhere. The inlet or outlet
can also be ducted elsewhere. The inlet and outlet should be installed on opposite sides of the room; however,
this varies according to your specific needs.
Example of Single Room Stand Alone System Installation
For single rooms where increased filtration is desired such as a
dedicated ‘smoking room’.
Preparation:
Here are some things to consider as you
decide where to install the HEPA system
independently of other systems.
HEPA System
Air should be drawn from
location B if space is avail-
able, otherwise, use loca-
tion A.
Location:
• Make sure there is room to open the
HEPA filter access panel for filter
changes/inspections.
A
• Keep the HEPA system away from
possible water damage.
• Vibration pads will reduce vibration for
installations where the unit is placed on
the floor.
B
• Install HEPA System on floor or suspended
platform. If the unit is suspended, screws
must not penetrate through the cabinet.
Make sure that you have the proper
chains/straps/joists and equipment to keep unit
secure.
Figure 11.
noise reduction purposes
• For best indoor air quality, do not use ductboard or
fiberglass inside of ducts.
Electricity:
Inlet (Marked as ‘Air In’ on unit):
• The unit must be plugged into a grounded 120V,
60Hz. outlet.
• Inlet ducts should be installed near the floor for
optimum airflow (see figure 11). If space does not
allow, then the inlet can be installed in the ceiling.
• Inlet duct should be installed at least 8 ft. away
from the outlet duct on the main return.
Required Materials for Installation of Unit:
For Model: HEPA-20
8” diameter flex or rigid duct (as required)
6” diameter flex or rigid duct (as required)
8” diameter vent
• Inlet duct should be installed at opposite end of the
room from the outlet duct(s) if in the same room.
• Diffusers are recommended to help distribute
airflow evenly.
6” diameter vent
Aluminum tape or mastic
Misc. hanging materials - field provided
Outlet (Marked as ‘Clean Air Out’ on unit):
• Outlet(s) should be installed in the ceiling away
from any other air inlet(s)
• Room diffusers are recommended to help distribute
airflow evenly in the occupied space.
For Models: HEPA-40 & HEPA-60
10” diameter flex or rigid duct (as required)
8” diameter flex or rigid duct (as required)
10” diameter vent
8” diameter vent
Ducting:
Aluminum tape or mastic
Misc. hanging materials - field provided
• If HEPA system is installed where inlet and outlet
collars face down, metal elbows must be connected
to both inlet and outlet collars.
NOTE: Be sure to review ‘Rules for Safe Installation
and Operation’ on page 1 of this document before
start-up of this unit.
• Each connection must be sealed with aluminum
tape or mastic, including all vent connections.
• Installed duct runs should be as straight as possible
(if the duct runs are too long, reduced CFM may
result).
NOTE: For details on the best way to combine HEPA
filtration with other air quality products see: SERVICE
AND APPLICATION NOTE IAQ-06-2
• If duct is exposed to unconditioned air, insulated
flex duct is highly recommended.
• Externally insulated flex duct can also be used for
11
Electrical Diagram
Figure 17.
Replacement Parts
Replacement Part
Complete Assembly
Motor Assembly
HEPA Filter Cartridge w/O-Ring
Carbon Pre-Filter
Inner Charcoal Filter
Carbon Canister
Optional Blower Interlock (24V relay)
30 lb. Ultra VOC Canister (Special Order)
*for optimal VOC & Aldehyde removal
HEPA-20
X4912
X2669
92X17
X4137
X2678
94X98
X2680
N/A
HEPA-40
X4913
X2669
92X10
X4138
92X09
98X75
X2680
95018-15
HEPA-60
X4914
X2671
92X10
X4138
92X09
98X75
X2680
95018-15
Other Recommeded HEALTHY CLIMATE® Products
Ventilation Control System (LVCS)
X4141
Humiditrol Whole-Home Dehumidification Systems
EDA-024B
EDA-036C
EDA-060D
94M41
94M42
94M43
Heat and Energy Recovery Ventilators
HRV1-150
HRV1-200
ERV-150
ERV-200
X4585
X4586
X4583
X4584
Use this unit only in the manner intended by the manufacturer. If you have questions, contact Healthy Climate®.
Contact your local Healthy Climate® dealer to order replacement parts.
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