Trion Air Boss ATS, 147207-001 User Manual

Air Boss ATS

(Air Treatment Systems)

ATS SERIES

•

INSTALLATION

•

OPERATION

•

SERVICE

Electrostatic Precipitators for

Commercial & Industrial

Applications

101 McNeill Road • Sanford, NC 27330

(919) 775-2201 • Fax: (919) 774-8771

(800) 884-0002

www.trioninc.com

MANUAL PART NO. 147207-001 • December 2002

TABLE OF CONTENTS

SECTION I DESIGN

For The System Design Engineer Page

1. Introduction ................................................................................................................................ 1

2. General Description ................................................................................................................... 1

3. System Design and Layout........................................................................................................ 2

SECTION II INSTALLATION

For The Installing Contractor

1. Unpack and Inspect ................................................................................................................... 3

2. Position Air Cleaner Cabinet..................................................................................................... 3

3. Connect Adjoining Ductwork .................................................................................................... 3

4. Mount Detergent System ........................................................................................................... 3

5. Connect Drain............................................................................................................................. 3

6. Connect Wash Water Supply..................................................................................................... 3

7. Mount Control............................................................................................................................. 4

8. Complete Wiring

A. High Voltage Wiring................................................................................................................ 4

B. Primary Wiring ........................................................................................................................ 4

9. Fire Suppression System (when factory supplied).................................................................. 4

10. Checkout for System Start-up .................................................................................................. 4

SECTION III OPERATION AND SERVICE

For The Maintenance Engineer

1. Introduction and Principle of Operation................................................................................... 5

2. Initial Start-up............................................................................................................................. 6

3. Wash Control and Detergent System Settings......................................................................... 8

4. Routine Maintenance ................................................................................................................. 9

5. Preventative Maintenance ......................................................................................................... 9

SECTION IV TROUBLESHOOTING

For The Maintenance Engineer

1. Trouble Shooting ..................................................................................................................... 11

2. Spare Parts ............................................................................................................................... 12

3. Trouble Reference Chart ......................................................................................................... 13

SECTION V REFERENCE

Illustrations and Drawings

Figure 1 General Component Arrangement...................................................... 14

Figure 2 Unit Outline .......................................................................................... 15

Figure 3 Control Outline..................................................................................... 16

Figure 4 Detergent System Outline................................................................... 17

Figure 5 Piping Schematic................................................................................. 18

Figure 6 Field Wiring Diagram........................................................................... 19

Figure 6a Second Wash Section Field Wiring Diagram ................................... 19a

Figure 7 Fire Control System Outline................................................................ 20

Figure 8 ATS Control Schematic Page 1........................................................... 21

Figure 9 ATS Control Schematic Page 2........................................................... 22

Figure 10 AIR BOSS Control Schematic Page 1................................................. 23

Figure 11 AIR BOSS Control Schematic Page 2................................................. 24

Figure 12 ATS Remote Box Schematic Page 1................................................... 25

Figure 13 ATS Remote Box Schematic Page 2................................................... 26

Figure 14 Standard Single Section Sequence Timing ....................................... 27

SECTION I DESIGN

FOR THE SYSTEM DESIGN ENGINEER

1. Introduction

ATS units are Air Treatment Systems designed to
efficiently remove a variety of contaminants from an air
stream. These contaminants my range from those found
in normal kitchen ventilation air to weld fumes or oils
and effluents from various manufacturing processes. A
range of units is available to clean specific air volumes.

Each unit is made up of mechanical and electronic “dirt”
collecting modules and efficient, trouble free operation
is absolutely dependent upon the periodic removal of
the collected contaminate from the cleaning elements.
Unit design simplifies this requirement.

When properly installed, operated and maintained, the
ATS unit will effectively and efficiently perform its
designed task.

To provide access to the system components (except
the blower section), gasketed doors with push-button
latches and lift-off hinges are located 90 degrees to the
direction of airflow on one side of the cabinet. Access
preference should be noted when unit is ordered.
Access to the blower section is obtained by removing
the bolts retaining the discharge end panel.

The power supplies providing the necessary high
voltage for the electronic air cleaner and the controls
initiating and sequencing the wash cycle are housed in
a NEMA 12 enclosure designed for remote mounting. In
addition, the enclosure is a central junction for the
primary wiring.

The standard 16-gallon detergent system is furnished
as a completely assembled unit to be piped directly to
the wash water supply, into the wash manifold headers.

Note: 30 or 55-gallon detergent tanks are available as
an option.

2. General Description

The standard major components supplied with each
ATS unit are as follows:

• Base unit consisting of five modular sections: 1)
impinger, 2) electronic air cleaner 3) bag type media
filter 4) activated carbon adsorber and 5)
blower/motor.

• Washer control including high voltage power
supply(s) to be mounted remotely.

• Detergent system to be located remotely.

• Wash water supply-line strainer.

The impinger section contains impinger panels to collect
grease and liquid particulate, oscillating front and rear
wash manifolds and metal mesh pre-filters (and after­filter when specified).

The electronic air cleaner section contains the ionizing­collecting cells to remove very fine particles; oscillating
front and rear wash manifolds and metal mesh pre­filters and after-filters.

When a factory installed fire suppression system is
specified, both the impinger and electronic air cleaner
sections include spray nozzles. Fire control is usually
required in kitchen exhaust and similar applications.

The media section contains bag type filters providing
safety filtration for the electronic air cleaner in the event
of any accumulated blow-off or contaminant penetration
in the event of an electrical outage.

For odor control, the adsorber section contains the
activated carbon panels in a vee bank configuration.

With the exception of the wash manifolds and the
blower/motor, all the major components slide in and out
of the housing for ease of service.

Note: Trion Tridex Detergent is specially formulated for
use with Trion electronic air cleaners. Use of other
cleaners and detergents, not specifically approved by
Trion, can cause possible failures in the unit and will void
any warranties on our equipment.

The strainer is to be installed in the wash water supply
line. Factory installed solenoid valves are located in the
piping inside the impinger and the electronic air cleaner
sections.

An optional chemical fire suppression system may be
specified to be included with the ATS unit if it is a
requirement of the application. The system available

from the factory must be completed at the
installation site by a qualified and authorized fire
control contractor. In addition to final hook-up, he will

complete tie-in with other existing systems, test, final
inspect and if necessary, coordinate his work with local
or other designated fire inspectors. The fire suppression
system includes strategically located, spray nozzles and
an electrical fire detection device to signal a control
head that opens a valve to discharge a chemical
cylinder. An auxiliary mechanical “Pull” is also supplied
to be installed at a remote location to manually activate
the system. The general contractor should coordinate
his work with that required by the fire control contractor.
Refer to fire control system outline drawing, Figure 7.

The following are standard options that may be
specified on the basic systems:

1. Without carbon section

2. Without media section*

3. Without carbon and media sections

4. Without blower section

5. Additional electronic air cleaner section (double
pass unit)

6. 30 or 55 gallon detergent system

7. Perforated plate in lieu of the metal mesh filters

8. Fire suppression system

1

*A carbon section without a media section is not
recommended by TRION.

3. System Design and Layout

(Refer to, or request, submittal drawings for dimensions
and data pertaining to a specific unit that is not included
in this manual).

The arrangement of the supplied components and the
general layout of the system will vary according to
application, adjoining equipment and available space.
However, there are several basic factors pertaining to
all installations that must be considered:

To maintain the selected cleaning efficiency, it is
important to assure that the total air volume (capacity in
CFM) is uniformly distributed across the entire face area
of the unit. The metal mesh filters, perforated plate or
mist suppressors, provide some resistance to effect
even air distribution. However, since most air ducts are
designed to handle air velocities greater than the rated
velocity of the air cleaner, it is necessary to properly
transition any attached ducting. If possible, a contraction
ratio of 1 in 3 (approximately 20°) should be maintained.
If space prohibits, turning vanes, air baffles or other
means may be utilized. Ducting – where attached to the
cabinet collars – should be gasketed, caulked or
otherwise made watertight. The bottom of the air­entering duct should be reasonably flat and sloped
toward the impinger drain pan for a length of 18 inches.
This will assure that any wash water splashback is
returned to the drain basin. The ducting and duct
connections should be designed in accordance with
applicable code requirements.

When there is a danger of rain, snow or debris being
drawn into the system with outside air, the make-up air
intake should be protected with rain louvers, hooding
and hardware cloth to prevent the rain, snow or debris
from entering the electronic air cleaner.

for the safety of operating personnel. Any additional
access that may be provided in the system, where
there is access to high voltage, must be equipped with
such interlocks. Interlocks are readily available from
the factory.

Water wash drain lines from the cabinet drain basin
should be trapped or otherwise sealed against the
system pressure (in accordance with local codes).
Wash water to the unit must meet the volume required
for the specific unit involved, and between 35 PSIG Min.
– 50 PSIG Max. at full flow to provide proper spray
patterns from the wash nozzles. The wash water MUST
be Hot water (140

0

F recommended) and installed as

close as possible to the unit and detergent system.

NOTE: THE HOT WATER TANK IS NOT PROVIDED BY
TRION.

When applicable, the detergent system, the wash water
inlet piping and the drain lines must be protected from
freezing temperatures.

Each installation varies according to needs, but the
water wash control must be located indoors, out of the
weather, and as closed to the air cleaner as practical.
Ideal mounting height is at eye level for ease in reading
the instrumentation, and to facilitate service. The
instructions furnished for manually operating the fire
extinguishing system shall be posted conspicuously
near the control in the kitchen or well-occupied work
area.

For ease in maintenance and component removal,
adequate space, 39” Minimum Required, must be
provided in front of all access doors, motors, pump and
accessory equipment. Special consideration should be
given in this respect for installations where the unit is
suspended overhead. Catwalks or platforms should be
provided.

Some contaminants to be collected, such as oils in
vaporous state, must be condensed into particulate form
prior to entering the ionizing-collecting cells in order to
maintain the anticipated efficiency. Gases, vapors or
any non-particulate cannot be precipitated and will
therefore pass through the collecting elements. Any
condensing that takes place downstream from the air
cleaner defeats the purpose. By the same token, heavy
concentrations of water vapor, or other matter that
becomes highly conductive when condensed, must be
prevented from entering and/or condensing in the
electronic air cleaner to prevent electrical arc over and
shorting. The impinger module aids in this process and
will adequately handle light concentrations, however, it
is recommended to insulate upstream ducting
conveying warm air that is subjected to cold
temperatures on applications such as kitchen exhaust.

SAFETY NOTE:
Factory designed access to all electrically charged
high voltage components contain electrical interlocks

CAUTION
In addition to the above space requirement, installation
of the Model ATS in NFPA applications shall have a
clearance of at least 18 inches to a combustible
material, 3 inches to limited combustible material, and
0 inches to noncombustible material. Any reduction in
clearance or exceptions must be in compliance with
NFPA and acceptable to the Authority Having
Jurisdiction.

****WARNING****

Fire Suppression Systems
Extreme caution should be exercised when this unit is
installed in applications that are collecting volatile or
potentially flammable contaminates such as cooking
grease and petroleum based oils.
Trion strongly recommends a fire suppression system
be installed in the ductwork and on the Model ATS in
cases where these contaminates are collected on the
cell plates and collect on the attached ductwork.
Contact the factory for questions or concerns
regarding a fire suppression system.

2

To enable the factory to respond efficiently to
manufacturing requests, the equipment purchase order
must contain the following information in addition to the
model and options.

1. The application and as much contaminate load data
as possible. This will enable the wash control to be
preset and adjusted to the optimum setting.

2. The high-voltage lead length required if longer than
the standard length of 50 feet.

3. The side of the blower section the blower motor
starter is to be installed. Left or right as determined
when standing in the direction of air flow with the air
striking your back.

4. The external static pressure that the blower/motor
will handle due to ducting, hooding or other
equipment.

Contact the local Trion Sales Office or the factory if
questions arise, or if any additional information is
required.

SECTION II INSTALLATION

FOR THE INSTALLING CONTRACTOR

1. Unpack and Inspect

At the time the unit is received, all shipping containers
and their contents should be examined for damage. Any
damage occurring in shipment must be immediately
reported to the carrier, an inspection report completed
and a claim filed at the receiving point.

The unit modular sections are shipped completely
assembled and joined and, where size permits, the
electronic air cleaner ionizing-collecting cells are
shipped inside the cabinet. On large units, the upper tier
of cells may be shipped in separate containers. The
wash control, detergent feeder and other separate
accessories are shipped in the containers as noted on
the packing list.

2. Position Air Cleaner Cabinet

If advantageous, to remove weight for ease in handling,
the filtration elements can be removed from their
respective cabinets. Position the unit in the designated
location giving consideration to the following points:

(a) Excluding the blower section, there are access

doors on one side of the section modules. Provide
sufficient clearance in front of the doors on at least
one side for service and element removal. Normally
the side on which the factory installed blower motor
starter is mounted is the pre-planned side for single
side access.

(b) Level the unit to assure proper drainage from the

drain pans.

After the cabinet has been properly located, it may be
secured into place by bolting or welding. Reinstall any
section elements removed during installation making

directional arrows concur with the designed airflow
through the cabinet.

3. Connect Adjoining Duct Work

When the adjoining ducting is installed on the air
entering side, the bottom of the horizontal duct run
should be relatively flat and sloped toward the section
housing drain pan for an 18-inch length. This will enable
any wash water splashback occurring during the
washing operation to run back into the drain pan.

Secure the adjoining ducting to the section housing
utilizing the .375-inch clearance holes provided. The
seams should be made air and watertight by caulking or
gasketing.

Upstream ducting conveying warm air and subjected to
cold temperatures must be insulted to prevent
excessive condensation.

4. Mount Detergent System

Refer to Figures 1 and 4. The detergent system should
be located as close to the unit as practical in a level
position. Service space must be provided for periodical
manual filling of the detergent tank, and to gain access
to the pump and motor assembly. When positioned, the
assembly may be secured in place at the predrilled
factory mounting pads, either by bolting or welding.

5. Connect Drain

Connect a drain line to the 2” NPT couplings provided in
the drain basins of the impinger and electronic air
cleaner sections in accordance with the governing
plumbing codes. The drain line must be sealed with a
trap or other means to prevent air by pass. If a trap is
used, it should hold sufficient water column to overcome
the system air pressure and to assure that loss of liquid
from evaporation between cleaning periods will not
break the seal. The drain line should not be smaller than
the drainpipe coupling, or it will otherwise restrict the
flow of water. Refer to Figure 5.

6. Connect Water Wash Supply

The items furnished for field installation in the water
wash supply are a strainer, a back flow preventer (not
supplied) and a detergent system. Refer to the Piping
Schematic Figure 5.

Unless otherwise specified, the water wash supply
should be hot (140

0

F recommended-WATER HEATER

NOT SUPPLIED BY TRION) at the volume specified for

the given unit, and at a full flow pressure between 40
and 50 PSIG.

WARNING: Adequate precautions should be taken
in the event the water supply, detergent system and
drains are subjected to freezing temperatures.

Although not required, a pressure gage and a manual
service valve are recommended as shown in the
diagram. The components should be located within the
system to provide for service access.

3

7. Mount Control

Mount the wash control, also containing the high voltage
power supplies, in the selected location. It must be
mounted indoors out of the weather and should be at
eye level to ease in monitoring unit operation and as
close to the ATS unit as practical. Allow sufficient space
in front of the access door for service. Refer to Figure 3
for mounting hole layout and dimensions.

8. Complete Wiring

(a). High Voltage Wiring

WARNING:
EXERCISE ALL THE NORMAL PRECAUTIONS
WHEN WORKING WITH HIGH VOLTAGE AND
COMPLY WITH NEC AND ALL APPROPRIATE
LOCAL CODES.

*One each for impinger and electronic air cleaner

9. Fire Suppression System (when specified to be
factory supplied)

The installation of the fire suppression nozzles, fire
sensor device, the components within the chemical
cylinder housing and the interconnections of the
components has been completed at the factory. The
authorized fire control contractor must complete the
remote mechanical “Pull,” any other hookup or tie-in,
final test and inspection. Refer to fire control system
outline drawing, Figure 7.

Mount the fire extinguishing system instructions in the
designated area that is conspicuously located. This
should be in the kitchen or a well occupied work area
and is normally near the control.

The high voltage wiring entails interconnecting the
power supply(s) with the ionizing-collecting cell(s)
located in the electronic air cleaner section cabinet.
On multicell units, the wiring between the cells
within a tier is automatically made with intercell
spring contacts.

Refer to the Field Wiring Diagram Figure 6. Two 50
ft., (or the length specified) high voltage leads, one
for the ionizer and one for the collector, are factory
furnished. When the installation requires more than
one power supply, a set on leads is furnished for
each supply. Ring type connectors have been
factory installed at the cell termination of the leads.
After the leads have been run and cut to the proper
length, the slip-on connectors, shipped on their
respective power supply terminals, should be
secured by both crimping and soldering. For
working ease, the power supply(s) may be
removed from their retaining slide channels by
removing the single bolt in the top corner of the
circuit board. Each lead is to be run in separate
rigid conduit and must be of continuous run. (Do
not splice.) Knockouts are provided in the section
housing pilasters for conduit connection.

(b). Primary Wiring

Refer to the Field Wiring Diagram - Figure 6. The
primary wiring should be completed using rigid
conduit in accordance with prevailing electrical
codes.

The wash control is the main distribution point for all
primary wiring. The wiring includes the input supply
to the control and the interconnections between the
control and the following components:

1. Detergent feeder

2. Manifold drive motors*

3. Solenoid valves*

4. Door interlocks*

5. Blower motor starter/disconnect

6. Temperature sensor (when specified)

7. Fire suppression control (when specified)

10. Check Out for System Start-up

When the installation has been completed, assure that
the equipment is ready for start-up by checking the
following:

A. All construction debris is removed from the modular

section cabinets and the adjoining ductwork.

B. The inside of the power supply/control housing and

the detergent feeder tank is clear of any foreign
materials.

C. The drain lines from the section drain basin are

clear and that the line is completely connected to its
point of termination.

D. All supply line piping is completed and wash water

is available.

E. When required, assurance that the fire suppression

system has been inspected and tagged into service
by an authorized person.

F. Supply line power is available and electrical wiring

is completed to the following components:

1. ATS Control

2. Blower motor starter

3. Manifold drive motors

4. Solenoid valve

5. Door interlock

6. Temperature sensor (when specified)

7. Ionizing-collecting dells

8. Fire suppression system, as applicable

G. NOTE: Do not put the initial supply of detergent

into the detergent tank. This is to be done after
volume settings are made at start-up.

4

SECTION III OPERATION

WARNING

RISK OF ELECTRIC SHOCK
These servicing instructions are for use by qualified
personnel only. To reduce the risk of electric shock,
do not perform any servicing other than that
contained in the operating instructions unless you
are qualified to do so.

The power supply(s) convert the 115-volt, 60Hz, single­phase AC supply to the high voltage DC needed to
power the cell(s). The power supplies are solid state,
pulse width modulated (PWM), line and load regulated.
Potential output voltages of 12.5 KVDC are required for
the ionizer and 6.25 KVDC for the collector at a
maximum current of 6 MA. Each supply is retained in
the control in slide channels and secured with one bolt
located in the top corner of the circuit board.

FOR THE MAINTENANCE ENGINEER

1. Description and Principles of Operation

The basic ATS units are made up of five modular
sections. Each of the first three sections employs
different mechanisms to remove and capture particulate
matter from the air.

The first section, an impinger, is primarily designed for,
and is especially effective in, capturing relatively large
greasy liquid particulate. The impinger is constructed of
two equally spaced layers of roll formed baffles. The
spacing creates and air flow pattern which causes the
contaminate to collect and flow down the baffles. Holes
in the frame permit the liquid to drip into the drain basin
below. Periodically, at a predetermined setting a
remotely located control automatically activates
oscillating wash manifolds located on both sides of the
impinger to flush away any remaining tenacious matter.
(Refer to the electronic air cleaner section below for
additional description on the integral washer. It is
identical to the impinger washer.)

The second section houses an electronic air cleaner,
technically known as an electrostatic precipitator. In this
type of equipment, all airborne particles, even of
microscopic size, are electrically charged (positively) as
they pass through a high voltage ionizer. These charged
particles are then attracted and adhere to a series of
parallel collecting plates, which form the negative
elements of an electrostatic field.

At a predetermined frequency the remotely located
control automatically activates an integral wash system
to flush away the collected contaminant. When
activated, the duration of the washing cycle is
approximately 80 minutes.

The wash system consists of a series of spray nozzles
soldered into oscillating water wash manifolds. The
manifolds are located in the front and rear of each cell
tier. They are mechanically interconnected with a drive­belt and driven through direct linkage by a fractional HP
motor. A detergent feeder is also incorporated into the
wash system. The amount of detergent needed for each
wash is readily field adjustable and that amount is
dependent upon wash water temperature, the type and
amount of contaminant collected.

In addition to the preset automatic wash cycle, the
washing operation may be initiated manually when
required. The events in a wash cycle are:

A. Power pack(s) and system blower ”OFF”

B. Washer and detergent “ON” (each module)

C. Washer and detergent “OFF” (each module)

D. Pause for detergent to react

E. Washer “ON” for rinse (each module)

F. Washer “OFF” (each module)

G. Blower “ON” for forced dry

The ionizer consists of charged stainless steel spiked
blades spaced between grounded electrodes. The
collecting section consists of parallel plates arranged so
that each alternate plate is charged while the
intermediate plates are electrically grounded.

The ionizing-collecting cells (contaminate collecting
elements) are housed in the cabinet on slide rails. They
can be removed from the cabinet as required, through
the end access door, by sliding them out like drawers.
On multicell units, all of the electrical connections
between cells in a given tier are automatically made
through spring connectors. On the access end, the high
voltage from the power pack(s) is made with cables.
When installing cells into the cabinet, observe the
directional arrows on the cell end plates. The side of the
cell containing the spiked ionizer blades always must be
located on the air entering side.

H. Power pack(s) “ON”

When a fire control system is specified, both the
impinger and electronic air cleaner sections contain
chemical spray nozzles.

The third section houses a bag filter(s). In the event of
an electrical outage in the electronic air cleaner, the bag
filter acts as a safety backup collector.

Also, in some applications, the bag filter will collect any
precipitated agglomerates that may tend to “blow-off”
the electronic air cleaner.

When the bags become saturated with contaminant
they must be removed and replaced. However, this
requirement is relatively infrequent due to the pre­filtration upstream from the bag.

5

A series of long deep pockets arranged side-by-side
form the configuration of each bag. The ultra fine fibers
used in the makeup of the filtering media offer to trap
the contaminant.

The fourth section is employed in the ATS unit for odor
control. Panels, filled with activated carbon granules,
are arranged in a vee bank configuration to provide
adequate surface area. The surface of each granule is
extremely porous and absorbs materials that are in a
gaseous or vaporized state that cannot be removed by
the particulate filters. Using the carbon filters without the
pre-filtration by the bag filters is not recommended.
When the panels have become saturated or fully loaded
they may be replaced with new or reactivated carbon.

The fifth section, the blower/motor section, has been
rated to handle the air movement requirements for the
systems and the adjoining ducting.

shall be forwarded to the authority having jurisdiction.
For a fire suppression system supplied with the ATS
unit refer to Figure 7.

A. Inspect the inside of the adjoining ductwork and

Trion cabinet to be sure it is clean and free of any
debris or construction materials. Especially note the
opening in the drain basin for any restrictions. The
ducting, where secured to the cabinet collars,
should be sealed watertight with either gasketing or
caulking.

B. Inspect the ionizing-collecting cells to see that all of

the ionizing blades are intact and that no large
pieces of foreign material are lodged between the
plates. Also verify that the cells are properly
installed in the cabinet with the spiked ionizing
blades located on the air entering side (Follow the
air flow directional arrows).

When the fire suppression system has been specified to
be factory furnished it consists of strategically located
chemical spray nozzles located in the impinger and
electronic air cleaner modules. The fire suppression
chemical is stored in a cylinder housed in a
weatherproof enclosure mounted on one side of the
blower module. An electrical detection device, mounted
downstream from the impinger module in the electronic
air cleaner module, activates the system by sending a
signal to a control head discharging the chemical
cylinder.

In addition to the electrical detection device, a remotely
located pull station is provided for mechanical activation
of the system manually.

Depending on the installation and any local, or other
governing requirements, the ATS unit fire suppression
system may be tied-in with other fire suppression
devices. When the fire suppression system is activated,
the unit electrical input power is disconnected to the
ATS unit blower and the high voltage required for the
electric air cleaner is disconnected. After the fire

suppression system has been activated, the
authorized fire suppression contractor must put it
back into service. For a system supplied, with the ATS

unit, refer to Figure 7.

C. Check the high voltage leads to see that they are

connected to the proper terminals, both at the
ionizing-collecting cells and inside the power pack.
Refer to Figures 6.

D. Be sure that the drain lines from the drain basins

are completely connected and properly terminated.
A trap or seal of some type should be incorporated
in the line to prevent air bypass.

E. Check the water supply line to be sure water is

available and that the strainer, back flow preventer
(by others) and detergent system are properly
installed and connected. Refer to piping diagram
Figure 5.

F. Be sure that electrical power is available, that the

wiring is completed, and that the system blower is
ready to energize. Refer to field wiring diagram
Figure 6.

G. Be sure that all access doors are closed.

H. Close the system electrical supply switches, making

power available to the control and blower motor
starter. Check to verify blower rotation is as shown
on the rotation indicator arrow.

2. Initial Start-up

Prior to equipment start-up, the fire extinguishing
system employed in the ATS unit (and possibly
adjoining equipment) must be inspected by properly
trained and qualified personnel. This includes all
actuation components including remote manual pull
stations, mechanical or electrical devices, detectors,
fire-actuated dampers, etc. These items shall be
checked for proper operation during the inspection in
accordance with the manufactures listed procedures. In
addition to these requirements, the specific inspection
requirements of the applicable NFPA standard shall
also be followed. If required, certificates of inspection

I. Turn the “ON-OFF” selector switch to the control

“ON”. The blower should run (if installed) and the
power supply(s) should be energized. Electrical arc­over within the ionizing-collecting cells may occur. It
is a normal occurrence caused by accumulation
dust from constructions or other sources in the
cell(s) and should soon subside. If the arc-over in
continuous and does not subside, recheck the
routing of the high voltage leads between the power
supply(s) and the cell(s). Refer to field wiring
diagram Figure 6. The ionizer lead must be
connected to the ionizer and the connector lead to
the collector. If arc-over still occurs, or difficulty

6

other than that outlined above, refer to the Trouble
Shooting reference chart Section IV.

J. Be sure the detergent tank is clean, and then fill the

tank 1/8 full with clean water. Do not fill with the

detergent until start-up adjustments have been
completed.

K. (Review this paragraph in its entirety before initiating

the wash start button.)

Next, set the detergent volume setting per wash at
the detergent feeder. Manually initiate the wash
cycle by pushing the "Wash Start" button on the
control. The wash control duration is 80 minutes
and by means of a factory preset programmable
logic controller (PLC) will sequence the washing
events as previously outlined. When the detergent
pump is energized, note the amount that is used by
observing the reduction in the liquid level in the
tank. The usage should be approximately 1 part of
detergent to 20 parts of water. The water and
detergent requirements for each unit model are
listed in Table 1 on the Piping Schematic, Figure 5.
To adjust the volume output from the pump, refer to
the Detergent System Outline, Figure 4. The pump
is a constant displacement type and the amount of
detergent forced into the water supply to wash the
unit is dependent upon the setting of the control
valve in the bypass return line to the reservoir. The
side of the translucent reservoir is marked with
volume markers. Adjust the control valve to obtain
the correct usage for the given unit model, then
secure the setting with the Allen head set screw
located in the valve adjustment knob. When the
correct adjustment has been made, remove the
remaining water from the reservoir and fill the tank
with initial supply of detergent furnished.

L. When the wash control has cycled out, manually set

the programmable timer relay (TR), or initiator clock,
located in the control for automatic initiation of the
washing operation. This setting can be tailored to the
washing frequency best suited for the specific
application and may be best explained by example.

In our example, the restaurant operates Monday
through Saturday (closed Sunday) and opens daily at
6:00 a.m. and closes daily at 11:30 p.m. This busy
schedule presents a relatively heavy dirt loading and
being of greasy nature should be washed away daily.
The best time being shortly after closing when the
atmosphere has settled but before the greasy
contaminant collected has had a chance to harden
and setup.

From the above, a wash schedule of every day
except Sunday at 1:00 a.m. can be established. As
the duration of events preset at the factory is
approximately 80 minutes, the cycle will end at
approximately 2:20 a.m.

Prior to setting the initiator clock it will be necessary
to charge the battery located inside the clock. This is
accomplished by turning the selector switch on the
front of the control to the "ON" position. A light inside
the switch will glow. If it does not glow, check to be
sure there is supply line power to the control. DO
NOT PUSH THE WASH BUTTON. Allow the control
to remain in the "ON" position for 24 to 36 hours

while the battery is charging.

To set the initiator clock, it is first necessary to set the
existing time, then the program times that are to be
initiated.

To set existing time:

Suppose the application of the equipment is to clean
restaurant kitchen exhaust air. The collected
contaminant to be washed away is of greasy nature,
containing particulate such as smoke and fume from
the grill, mist and vapors from the French Fryer, flour
dust and other various matter that is created by
normal kitchen operation.

1. Depress the reset (R) button to cancel out any
previous settings.

2. Slide the P-Run switch to the clock position.
Monday (MO) will be indicated.

3. Push the (1 ... 7) button until the present day of
the week is indicated.

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