Allied Air Enterprises 92G1DF, A95DF, A93DF, 95G1DF Exhaust Pipe Termination Size Reduction, Model

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Details of Intake and Exhaust Piping Terminations for Direct Vent Installations

NOTE: In Direct Vent installations, combustion air is taken from outdoors and flue gases are discharged to outdoors.

NOTE: Flue gas may be slightly acidic and may adversely affect some building materials. If any vent termination is used and the flue gases may impinge on the building material, a corrosion-resistant shield (minimum 24 inches square) must be used to protect the wall surface. If the optional tee is used, the protective shield is required. The shield should be constructed using wood, plastic, sheet metal or other suitable material. All seams, joints, cracks, etc. in the affected area should be sealed using an appropriate sealant. See Figure 27.

Intake and exhaust pipes may be routed either horizontally through an outside wall or vertically through the roof. In attic or closet installations, vertical termination through the roof is preferred. Figures 25 through 33 show typical terminations.

1. Exhaust and intake exits must be in same pressure zone.

Do not exit one through the roof and one on the side.

Also, do not exit the intake on one side and the exhaust

DIRECT VENT ROOF TERMINATION KIT

 

(15F75 or 44J41)

 

Inches(mm)

3"(76mm) MAX.

SIZE TERMINATION

 

 

 

PIPE PER TABLE 8.

 

 

UNCONDITIONED

8" (203mm) MIN

 

ATTIC SPACE

 

 

 

 

1/2" (13mm) FOAM

12" (305mm) ABOVE

 

INSULATION IN

AVERAGE SNOW

 

UNCONDITIONED

ACCUMULATION

 

SPACE (IF REQUIRED)

3" (76mm) OR

2" (51mm) PVC

PROVIDE SUPPORT

FOR INTAKE AND

EXHAUST LINES

FIGURE 25

FLUSH−MOUNT SIDE WALL TERMINATION

51W11

2" EXTENSION FOR 2" PVC PIPE 1" EXTENSION FOR 3" PVC PIPE

 

on another side of the house or structure.

2.

Intake and exhaust pipes should be placed as close

 

together as possible at termination end (refer to

 

illustrations). Maximum separation is 3" (76 mm) on

 

roof terminations and 6" (152 mm) on side wall

 

terminations.

3.

On roof terminations, the intake piping should terminate

 

straight down using two 90° elbows (See Figure 25).

FURNACE INTAKE PIPE

FURNACE

4’’ EXHAUST PIPE

GLUE EXHAUST

END FLUSH INTO

TERMINATION

4. Exhaust piping must terminate straight out or up as

shown. A reducer may be required on the exhaust piping

at the point where it exits the structure to improve the

velocity of exhaust away from the intake piping. See

Table 8.

EXHAUST PIPE TERMINATION SIZE REDUCTION

MODEL

Exhaust Pipe Size

Termination

Pipe Size

 

 

*045 and *070

2" (51mm), 2−1/2" (64mm),

1−1/2" (38mm)

 

3" (76mm)

 

*090

2" (51mm)

 

110

3" (76mm)

2" (51mm)

TABLE 8

*045, 070 and 090 units with the flush−mount termination must use the 1−1/2"accelerator supplied with the kit.

5.On field supplied terminations for side wall exit, exhaust piping may extend a maximum of 12 inches (305 mm) for 2" PVC and 20 inches (508 mm) for 3" (76 mm) PVC beyond the outside wall. Intake piping should be as short as possible. See Figures 28 and 29.

NOTE: Care must be taken to avoid recirculation of exhaust back into intake pipe.

FLAT SIDE

1−1/2" ACCELERATOR

(all −45, −070 and −090 units)

FIGURE 26

6.On field supplied terminations, a minimum distance between the end of the exhaust pipe and the end of the intake pipe without a termination elbow is 8" and a minimum distance of 6" with a termination elbow. See Figures 28 and 29.

7.If intake and exhaust piping must be run up a side wall to position above snow accumulation or other obstructions, piping must be supported every 24" (610 mm) as shown in Figures 28 and 29.

When exhaust and intake piping must be run up an outside wall, the exhaust piping must be terminated with pipe sized per Table 8. The intake piping may be equipped with a 90° elbow turndown. Using turndown will add 5 feet (1.5 m) to the equivalent length of the pipe.

8.Based on the recommendation of the manufacturer, a multiple furnace installation may use a group of up to four terminations assembled together horizontally, as shown in Figure 32.

506725-01

Issue 1109

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Contents A95DF, A93DF, 95G1DF & 92G1DF Table of ContentsFront View Side View TOP ViewParts Arrangement Gas Furnace Safety InformationShipping and Packing List Package 1 of 1 contains Building CodesInstalled in Combination with a Cooling Coil Locations and ClearancesUse of Furnace as Construction Heater Combustion, Dilution & Ventilation Air Product Contains Fiberglass WoolConfined Space Unconfined SpaceAir from Inside Equipment in Confined Space − ALL AIR from InsideEquipment in Confined Space − ALL AIR from Outside Air from OutsideInstallation Setting Equipment Shipping Bolt RemovalUnits with 1/2 HP Blower Motor Installation on Non-Combustible Flooring Figure Installation on Combustible Flooring FigureNON−COMBUSTIBLE Floor Opening Size Installation on Cooling Coil Cabinet Figure Combustible Flooring Base Opening SizeReturn Air Opening Downflow Units Piping and Fittings Specifications Canadian Applications Only Outdoor Termination Kits UsageStandard Concentric Joint Cementing Procedure Venting Practices Piping Suspension GuidelinesReplacing Furnace That WAS Part of a Common Vent System Minimum Vent Pipe Lengths Exhaust Piping FigureMIN. Vent Length ModelsA95DF / 95G1DF and A93DF / 92G1DF Typical Intake Pipe Connections Direct Vent Applications Typical Exhaust Pipe ConnectionsIntake Piping For Canadian Installations OnlyTypical AIR Intake Pipe Connections General Guidelines for Vent TerminationsInside Corner Detail No minimum to outside corner Exhaust Pipe Termination Size Reduction Direct Vent Roof Termination KITModel 51mm 76mm Direct Vent Application Using Existing Chimney Direct Vent Concentric Rooftop TerminationDirect Vent Concentric Wall Termination NON−DIRECT Vent Field Supplied Wall Termination Extended NON−DIRECT Vent Application Using Existing ChimneyNON−DIRECT Vent Roof Termination KIT NON−DIRECT Vent Field Supplied Wall TerminationUnit with Evaporator Coil Condensate PipingTrap / Drain Assembly Using 1/2 PVC or 3/4 PVC Gas Piping Leak CheckFire or Explosion Hazard GAS Pipe Capacity − FT 3 /HR kL/HR Carbon Monoxide Poisoning Hazard Removal of the Furnace from Common VentAccessory Terminals Precautions and ProceduresElectrical Electrostatic Discharge ESDGenerator Use Voltage Requirements Indoor Blower SpeedsTypical Wiring Diagram Automatic Hot Surface Ignition System Integrated ControlUnit Start-Up Placing the furnace into operationGas Valve Operation Figure Priming Condensate TrapTurning Off Gas to Unit Failure To OperateGAS Meter Clocking Chart Burner Orifice Conversion Kits at Varying Altitudes Carbon Monoxide Poisoning Hazard Pressure Switch Flame Rollout Switches TwoTemperature Rise Primary LimitBlower Data A93DF1D / 92G1DF Blower Data A95DF1D / 95G1DF Electrical SHOCK, Fire Or Explosion Hazard Cleaning the Burner Assembly Diagnostic Codes Planned ServiceCabinet Parts Heating Parts Repair Parts ListControl Panel Parts Blower PartsIntake / Exhaust Pipe GAS SupplyDuct System Supply AIR Duct Return DuctUnit Operation Manufacturer Requirements Clear of ALL Obstructions

A95DF, 95G1DF, A93DF, 92G1DF specifications

Allied Air Enterprises offers a range of high-efficiency commercial and residential heating and cooling systems, with models like the 92G1DF, A93DF, 95G1DF, and A95DF gaining popularity for their cutting-edge technology and advanced features. Each of these models stands out in performance, reliability, and energy efficiency, making them excellent choices for diverse applications.

The 92G1DF model features a multi-stage gas valve that enhances temperature regulation, allowing for more precise heating. With an impressive Annual Fuel Utilization Efficiency (AFUE) rating, this furnace efficiently utilizes fuel, resulting in lower energy costs and reduced emissions. Its compact design makes it suitable for installations in tight spaces, while the durable heat exchanger extends the unit’s lifespan.

In contrast, the A93DF is engineered for enhanced comfort and flexibility. This model incorporates a variable-speed blower motor, which adjusts air circulation according to the heating demands in the space. This feature not only maximizes comfort by providing consistent temperatures but also promotes energy savings by reducing unnecessary power consumption. Additionally, the A93DF includes advanced diagnostic capabilities that simplify troubleshooting and maintenance, making it a favorite among HVAC professionals.

The 95G1DF is another noteworthy model that combines versatile performance with exceptional efficiency. This furnace boasts an AFUE rating of up to 95%, making it one of the most efficient models in its class. Its innovative design includes a secondary heat exchanger that captures additional heat from exhaust gases, optimizing energy utilization. Furthermore, the 95G1DF is equipped with an advanced control system that allows homeowners to set specific comfort levels.

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In summary, Allied Air Enterprises' models 92G1DF, A93DF, 95G1DF, and A95DF demonstrate a commitment to innovation and energy efficiency, with features designed to provide superior comfort and reliability. With their advanced technologies and high-performance characteristics, these models are positioned as top contenders in the heating and cooling marketplace, ensuring that customers can enjoy a comfortable environment year-round.