CaptiveAire M511, CAV-M, CAH-M Installation Manual

Installation & Operation

Guide

.

Industrial Direct Fired Heaters

Horizontal / Vertical and Single / Twin Blowers
Re-Circulating Systems
Static Pressure Controller – Potentiometer

FOR YOUR SAFETY

If You smell gas:

1. Open windows

2. Don’t touch electrical switches

3. Extinguish any open flames

4. Immediately call your gas supplier

FOR YOUR SAFETY

The use and storage of gasoline or

other flammable vapors and liquids in

open containers in the vicinity of this

WARNING!!

appliance is hazardous!

Improper installation, adjustment, alteration, service or maintenance can cause

property damage, injury or death. Read the installation, operating and

maintenance instructions thoroughly before installing or servicing this equipment

ALWAYS disconnect power and gas prior to working on heater.

RECEIVING AND INSPECTION

Upon receiving unit, check for any interior and exterior damage, and if found,

report it immediately to the carrier. Also check that all accessory items are

accounted for and are damage free. Turn the blower wheel by hand to verify

free rotation and check the damper (if supplied) for free operation.

NOTE TO INSTALLER

Please complete and return the

Start-UP Checklist on the back of this

manual to validate warranty

NOTE TO INSTALLER

This manual should be reviewed with

the customer and left with the

equipment user

Revision 7 – 5.25.2010

2

TABLE OF CONTENTS

WARRANTY .................................................................................................................................... 4

INSTALLATION ............................................................................................................................... 4

Gas ................................................................................................................................................ 11

Electrical ........................................................................................................................................ 12

Gas Connection Diagram .............................................................................................................. 12

Copper Wire Ampacity .......................................................................................................... 12

Re-Circulating Damper Control Options ........................................................................................ 14

SEQUENCE OF OPERATIONS .................................................................................................... 16

Sequence of Operation – 80/20 Static Pressure Controller ................................................ 16

Sequence of Operation – 80/20 Manual Potentiometer ....................................................... 16

START-UP PROCEDURE 80/20 .................................................................................................. 18

AIR BALANCING ........................................................................................................................... 24

TEMPERATURE CONTROL SYSTEMS ...................................................................................... 26

UNIT COMPONENTS ................................................................................................................... 27

M4RT1 Flame Safety Control ............................................................................................... 27

DC Flame Signal ................................................................................................................... 27

Air Flow Switch ..................................................................................................................... 28

Modulating Gas System ........................................................................................................ 28

High Temperature Limit ........................................................................................................ 28

TROUBLESHOOTING .................................................................................................................. 30

General Maintenance .................................................................................................................... 42

Burner Orifice Drill Size ........................................................................................................ 43

START-UP CHECKLIST ............................................................................................................... 43

3

WARRANTY

This equipment is warranted to be free from defects in materials and workmanship, under normal
use and service, for a period of 12 months from date of shipment. This warranty shall not apply if:

• the equipment is not installed by a qualified installer per the manufacturer’s installation
instructions shipped with the product

• the equipment is not installed in accordance with federal, state and local codes and
regulations

• the equipment is misused or neglected

• the equipment is not operated within its published capacity

• the invoice is not paid within the terms of the sales agreement

• the Start-Up Checklist has not been filled in by a qualified technician and returned to the

Factory Service Department

The manufacturer shall not be liable for incidental and consequential losses and damages
potentially attributable to malfunctioning equipment. Should any part of the equipment prove to
be defective in material or workmanship within the 12-month warranty period, upon examination
by the manufacturer, such part will be repaired or replaced by manufacturer at no charge. The
buyer shall pay all labor costs incurred in connection with such repair or replacement. Equipment
shall not be returned without manufacturer’s prior authorization and all returned equipment shall
be shipped by the buyer, freight prepaid to a destination determined by the manufacturer.

NOTE TO INSTALLER

Please complete and return the

Start-UP Checklist on the back of this manual to validate warranty

INSTALLATION

It is imperative that this unit is installed and operated with the designed airflow, gas, and electrical
supply in accordance with this manual. Any variance to these instructions may cause the unit to not
perform to specifications and may cause severe damage to the unit or jobsite. Please call the service
department at 1-800-291-2452 for assistance on warranty issues and technical support.

Inspection on Arrival

1. Inspect unit on delivery

2. Photograph any visible damage

3. Report any damage to the delivery carrier

4. Request a written inspection report from the
Claims Inspector to substantiate claim

5. File claims with delivery carrier

Unit Location

1. Do not locate any gas-fired equipment near
corrosive or explosive vapors such as
chlorinated or acid vapors

4

6. Check unit’s rating plate to verify proper
electric and fuel type to meet job
requirements

7. Compare unit received with description of
product ordered

2. Avoid overhead power lines, or other utility
access to prevent accidental contact or
damage.

3. Provide clearance around installation site to
safely rig and lift the equipment into its final

position onto adequate supports. Refer to
the manufacturer’s estimated weights.

4. Consider general service and installation
space when locating the unit.

5. Locate the unit close to the space it will
serve to reduce long, twisted duct runs.

6. Do not allow air intake to face prevailing
winds. Air flow switch may trip in high winds.

7. Situate the unit above ground or at roof level
high enough to prevent precipitation from
being drawn into its inlet.

8. The inlet must also be located at least 10
feet away from any exhaust vents.

9. The heater inlet must be located in
accordance with the applicable building
code provisions for ventilation air.

10. All air to the heater must be ducted from the
outdoors.

11. Recirculation of room air is not permitted. If
in doubt regarding the application, consult
the manufacturer.

12. The unit must have adequate structural
support or the equipment or building could
be damaged.

13. Do not alter or otherwise restrict combustion
or ventilation openings.

14. Direct-fired units should not be installed
downstream from cooling systems which
use refrigerants for cooling.

COMBUSTABLE

CLEARANCES

The top, back, and front surfaces

of this heater may not be installed

less than 6 inches from

combustible materials. The heater

base may be installed on

combustible surfaces.

SERVICE CLEARANCES

Allow 24 inches or greater

minimum service clearance on all

sides of this heater. Allow 48

inches or greater on the vestibule

and blower door side.

Rigging

1. Size 10, 12, 15, and 18 units are supplied with lifting eyes on the top corners of the casing.

2. All other units are supplied with four mounting and lifting brackets on the bottom corners of the base
with holes for lifting hooks.

3. The main load should be on these lugs.

4. Lift the unit and accessories separately, and attach the accessories to the unit once the unit is in
place.

5. The following diagrams represent the proper methods for lifting the unit and accessories.

6. Always use spreader bars to prevent damage to the unit casing.

5

FIGURE 1: SIZE 10, 12, 15, & 18 FIGURE 2: NO SPREADER BARS

FIGURE 3: WITH SPREADER BARS FIGURE 4: ACCESSORIES

CAUTION!!

These are unbalanced loads

Lift equipment gently

Do not jerk

Spreader bars must be used and should extend
past the edges of the equipment to avoid damage
to the casing. Not using spreader bars may cause

WARNING!!

WARNING!!

damage to the casing

Damage will result if the equipment is raised by the intake hood, blower, motor shaft, or bearings

Use the provided lifting eyes and brackets on the unit

6

Curbs

The unit must have adequate structural support or the equipment or building could be damaged. The curb
and unit must be leveled or the unit may leak or be damaged. Use gasket and caulk between the curb
and unit. Use shims if necessary to level the unit. Screw or weld the unit’s base to the curb to avoid
damage to the equipment.

WARNING!!

The unit must have adequate structural

support or the equipment or building could

be damaged.

WARNING!!

Screw or weld the unit’s base to the curb

to avoid damage to the equipment.

WARNING!!

The curb and unit must be leveled or the

unit may leak or be damaged.

Accessories

Intake and discharge accessories are shipped loose and unassembled. When attaching the accessories
to the unit use gasket, caulk, and #10 sheet metal screws on all seams. All accessories must be level
them may leak and or be damaged.

WARNING!!

Use gasket, caulk, and #10 sheet metal screws on

all component intersections. Leaking may result if

the intersections are not completed properly.

WARNING!!

The accessories must be level and support legs

attached to the hood and solid part of the roof.

Equipment that is not level or properly supported

may leak or be damaged.

7

Split Units

1. Apply weather-proof gasket to the seam of the vertical or horizontal unit

2. Use provided fasteners to secure the seam of the unit using the provided pre-punched holes
a. Horizontal units internal channels and a formed frame
b. Vertical units have angles on the outside of the casing

FIGURE 1: HORIZONTAL SPLIT ASSEMBLY FIGURE 2: VERTICAL SPLIT ASSEMBLY

3. Apply silicone to the outside edge of the seam

4. Field wire the discharge air sensor using a minimum 22 gauge wire

5. Mount the high temperature limit bulb to the blower housing

6. Mount the (optional) freeze control sensor to the blower housing

FIGURE 3: BLOWER SENSOR FIELD ASSEMBLY

8

Shipped Loose Intake or Discharge Dampers

In some cases an intake or discharge damper may be shipped loose. This may be requested by the
customer or can be required because of larger units shipping size restrictions. Follow these instructions to
attach and wire the shipped loose damper. Factory mounted dampers may be attached on the unit and
will not require assembly or field wiring.

1. Attach the damper to the intake or discharge using gasket, caulk, and #10

sheet metal screws

2. Field wire the damper using the as built wiring schematic for the specific unit.

Wiring may be different depending on the model and options selected.

3. Refer to the factory supplied wiring print to verify the field wiring terminals.

Ductwork

This fan was specified for a specific CFM and static pressure. The ductwork attached to this unit will
significantly affect the airflow performance.

WARNING!!

• Flexible ductwork and square elbows should not be used

• Transitions and turns in ductwork near the fan outlet will cause system effect and will drastically

increase the static pressure and reduce airflow

• The Ductwork Sizing Chart shows the minimum fan outlet duct sizes and straight lengths

recommended for optimal fan performance

• Units with twin blower must have a common discharge plenum

Follow SMACNA guides and recommendations for the remaining duct run. Fans designed for
rooftop installation should be installed on a prefabricated or factory-built roof curb. Follow curb
manufacturer’s instructions for proper curb installation. The unit should be installed on a curb and/or rail
elevated not less than 20” above any surface. Be sure the duct connection and fan outlet are properly
aligned and sealed.

Adequate building relief is necessary in order to prevent over-pressurizing the building when the heater is
operating at capacity. This can be accomplished by establishing properly-sized relief openings, an
interlocked, powered exhaust system, or both.

Heaters installed with intake ductwork must be purged to replace at least four air changes of the volume
of the intake duct.

In order to avoid hazards to other fuel-burning equipment in the building (i.e., when the heater is providing
make-up air to a boiler room), the unit should be interlocked to open inlet air dampers or other such
devices.

On outdoor installations, it is recommended that the discharge duct be insulated to prevent condensation
during the “OFF” cycle in cold weather.

Units being installed in airplane hangars should be installed in accordance with the Standard for Aircraft
Hangars, ANSI/NFPA 409. Units being installed in public garages should be installed in accordance
with the Standard for Parking Structures, ANSI/NFPA 88A, or the Standard for Repair Garages,
ANSI/NFPA 88B, and with CAN/CGA B149 Installation Codes.

Flexible connectors should be employed on all ductwork connections. Vibration isolators are optional and
can be supplied in the loose parts package.

To isolate the blower and motor, a spring mounted combination blower/motor base can be factory
mounted in the unit. A flexible fabric connector is used to isolate the base from the unit’s discharge
opening flange.

9

Ductwork Sizing Chart Single Blower

Blower Size

Duct Size

(Inches)

Duct Length

(Inches)
10 14 x 14 30
12 16 x 16 36
15 20 x 20 45
18 24 x 24 54
20 26 x 26 60
22 30 x 30 66
25 32 x 32 75
27 36 x 36 81
30 38 x 38 90
33 44 x 44 99
36 44 x 44 108

Installation Examples

Ductwork Sizing Chart Dual Blowers

Blower Size

Duct Size

(Inches)

Duct Length

(Inches)
222 77 x 28 66
225 88 x 32 75
227 96 x 36 81
230 104 x 38 90
233 116 x 44 99
236 122 x 44 108

WARNING!!

Failure to undersize ductwork size or length

may cause system affect and reduce the

performance of the equipment.

Using the unit to support the ductwork may

cause damage to the units casing.

Figure 1: Horizontal Roof Top Installation

 Down discharge AMU reduces ductwork
 Hood weight supported by support legs
 Union, regulator, and shut-off
 Roof curb supports unit
 Intake facing away from prevailing winds

Figure 2: Vertical Outdoor Ground Installation

 Side discharge AMU reduces ductwork
 Support stand on concrete pad
 Union, regulator, and shut-off
 Filter section inside support stand
 Ease of serviceability on ground

10

Gas Connection Sizes

Gas

Gas piping must be installed to conform with local building codes, or in the absence of local codes, the
National Fuel Gas Code, ANSI Z223.1 (NFPA 54) – latest edition. In Canada, gas piping must be
installed in accordance with CAN/CGA-B149.1 for natural gas units and CAN/CGA-B149.2 for propane
units.

WARNING

Inlet gas pressure must not exceed pressure

indicated on name plate.

Refer to the heater rating plate for

determining the minimum gas supply

pressure for obtaining the maximum gas

capacity for which this heater is specified.

1. Always disconnect power before working
on or near a heater. Lock and tag the
disconnect switch or breaker to prevent
accidental power-up.

2. Piping to the unit should conform to local
and national requirements for type and
volume of gas handled, and pressure drop
allowed in the line. Refer to the Gas
Engineer’s Handbook for gas line capacities.

3. The incoming pipe near the heater should
be sized to match the connection on the
outside of the unit. Unit inlet sizes are shown
in the table to the right. Avoid multiple taps
in the gas supply so the unit has a steady
supply of gas at all times.

4. Install a ground joint union with brass seat
and a manual shut-off valve external to the
unit casing, as shown below, adjacent to the
unit for emergency shut-off and easy
servicing of controls.

5. Provide a sediment trap, as shown below,
before each unit and where low spots in the
pipe line cannot be avoided.

6. Blow out the gas line to remove debris
before making connections. Before starting
the unit, purge line to remove air. Purge air
from gas lines according to ANSI Z223.1­latest edition “National Fuel Gas Code,” or in
Canada: CAN/CGA-B149.

7. All field gas piping must be pressure/leak
tested prior to operating the unit. Use a
soap solution or equivalent for leak testing.
The heater and its individual shut-off valve
must be disconnected from the gas supply
piping system during any pressure testing of
that system at test pressures in excess of ½
PSI. During any pressure testing of the gas

supply piping system at test pressures equal
to or less than ½ PSI, the heater must be
isolated from the gas supply piping system
and its individual manual shutoff valve
closed.

8. This unit requires the gas pressure to be
within the unit’s minimum and maximum gas
pressure ratings. If the pressure is greater
than the maximum, the internal valve
components will be damaged. If the
pressure is below the minimum, the heater
will not perform to specifications.

9. If installing on a paint booth application, a
manual shutoff should be located for access
in case of a fire or explosion at the heater.

BTU Input

158,000
275,000
550,000

990,000
1,375,000
1,650,000
1,925,000
2,475,000
2,750,000
3,300,000
4,125,000
5,225,000
5,775,000
6,325,000
8,525,000
9,075,000
9,625,000

11,825,000
15,552,000
16,848,000

Gas Pressure (Inches W.C. & PSI)

7” – 14” 15” – 1# 1# - 5#

½ ½ ½
¾ ½ ½
¾ ¾ ¾

1 ¾ ¾
1 ¼ ¾ ¾
1 ¼ ¾ 1
1 ½ 1 1
1 ½ 1 ¼ 1

2 1 ¼ 1 ¼

2 1 ½ 1 ¼
2 ½ 1 ½ 1 ¼
2 ½ 1 ½ 1 ½
2 ½ 2 1 ½

3 2 1 ½

3 2 ½ 1 ½

2 ½ 2 ½
3 2 ½
3 3
2 ½ 3
2 ½ 3

11

Gas Connection
Diagram

Electrical

Before connecting power to the heater, read and understand this entire section. Wiring diagrams are
furnished with each fan by the factory, and are attached to the door of the unit.

WARNING!!

Disconnect power before installing or servicing fan. High voltage electrical input is needed for
this equipment. This work should be performed by a qualified electrician.

Electrical wiring must be done in accordance with local ordinances and the National Electric Code,
ANSI/NFPA70. Be sure the voltage and phase of the power supply and the wire amperage capacity
conform to those listed on the motor nameplate. For additional safety information, refer to AMCA
publication 410-96, “Recommended Safety Practices for Users and Installers of Industrial and
Commercial Fans.”

1. Always disconnect power before working on or near a heater. Lock and tag the disconnect switch
or breaker to prevent accidental power-up.

2. A dedicated circuit should supply the units electrical disconnect with circuit protection, according to
the National Electric Code.

3. Make certain that the power source is compatible with the requirements of your equipment. The
heater nameplate identifies the proper phase and voltage of the motor.

4. Units shipped with an optional remote panel have two electrical circuit drops. It is important to run the
motor wires in a conduit separate from the remote control wiring. The DC wires from the unit
temperature controller, located in the control drop, should be either in shielded cable or run in a
separate conduit.

5. Before connecting the heater to the building power source, verify the power line wiring is de­energized.

6. Secure the power cables to prevent contact with sharp
objects.

7. Do not kink power cable and never allow the cable to
come in contact with oil, grease, hot surfaces or
chemicals.

12

Copper Wire Ampacity

Wire Size AWG Maximum Amps

14 20
12 25
10 30

8 40
6 55
4 70

8. Before powering up the heater, check fan wheel for free rotation and make sure that the interior of the
heater is free of loose debris or shipping materials.

9. If necessary, the original wire supplied with the heater may be replaced with type TW wire or the
equivalent.

Remote Control Panel

For units with the optional remote control panel, a terminal strip inside the panel matches the terminals in
the heater unit. This diagram shows an example of the field wiring for a unit with a 401M remote panel.
Consult the as built wiring print supplied with the equipment. Most remote panels and VAV applications
have signal wiring which needs to be shielded cable to avoid high voltage interference.

Power Supply Wiring

The units input power supply is listed on the unit nameplate. If the units power supply does not match the
unit nameplate contact the service department for a new wiring print and parts.

Paint Booth Applications

If a low temperature control is not an integral part of the heater, it is recommended that one be installed in
areas where freeze protection is needed in the event of a burner shutdown. The space should be
ventilated following a bake cycle to purge any contaminants and cool product prior to personnel entering
the space. If the unit was supplied with paint booth controls from the factory, refer to the schematic for
installation of the interlock to disable spraying equipment unless the heater is operating in ventilation
mode. Refer to electrical schematic for interlock to disable facility lighting within the process space during
the bake cycle.

If they unit will be operating as a process heater in the re-circulating position with airborne particulate
matter, install means to facilitate inspection, maintenance, cleaning and access to fire protection devices.
In re-circulating process applications, the system shall be designed to provide 200 cfm per 1000 cfh of
natural gas based on the maximum capacity of the heater plus an allowance to sufficiently dilute the
VOC’s created by the process to maintain the lower explosive level below a 25% threshold value.

13

Re-Circulating Damper Control Options

The Re-Circulating system is for controlling the amount of make-up air being brought into a building. It
can be set from a minimum 20& fresh air, and 80% return air to a maximum of 100% fresh air, and 0%
return air. The Re-Circulating dampers can be controlled by three different options.

Manual Positioning Control (Potentiometer)

The dampers can be control at a remote location by a manual potentiometer to any position from 20% to
100% fresh air. This will allow manually setting the dampers to match the building ventilation
requirements. It will take an extra 3 control wires at the remote location. On a power failure, or if the unit
of turned off, the return air damper will close by spring return.

Two Position Control

The dampers can be controlled by a two position switch (a field supplied switching device) to open the
fresh air to 100%. On opening of the circuit, power failure, or if the unit is shutoff, the return air damper
will close by spring return.

Static Pressure Control (Photohelic)

The dampers can be controlled by a building static pressure control. This controller will sense the
difference between pressure inside the building, and pressure outside the building (sensed at the A306
outdoor sensor), and position the dampers to maintain the pressure setting on the controller. The
controller has two set points and an indicator. The two set points are a minimum desired static pressure
point, and a maximum static pressure point.

The actual building static pressure will be shown by a visual indicator between these two settings. The
controller will modulate the dampers to maintain a static pressure between these set points.

When building static pressure is below the minimum setting, the damper motor will proportion open the
fresh air damper and close the return air damper until static increases above the minimum setting. At this
point, the damper motor will stop and hold this proportion.

If the building static continues to climb and goes above maximum setting, the damper motor will reverse
proportion, closing the fresh air damper and opening the return air damper until static drops below
maximum setting.

During the “OFF” or “Night” cycle of the unit, an internal switching circuit will close the return air damper.
See additional wiring and installation information on the static pressure controller and A306 outdoor

sensor. The static pressure controller can be ordered to be shipped loose or mounted inside the unit to
reduce field wiring and assembly.

14