Fedders F80A dimensions Furnace Sizing, General, Other Considerations

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MODEL F80A

FURNACE SIZING

The maximum hourly heat loss for each heated space shall be calculated in accordance with the procedures described in Manual J titled, "Load Calculation" published by the Air Conditioning Contractors of America, or by any other method which is suitable for local conditions, provided the results obtained are in substantial agreement with, and not less than those obtained using the procedure described in their manual.

In Canada, the maximum hourly heat loss for each heated space shall be calculated in accordance with the procedures described in the manuals of the Heating, Refrigeration and Air Conditioning Institute of Canada (HRAI), or by any other method which is suitable for local conditions, provided the results obtained are in substantial agreement with, and not less than those obtained using the procedure described in their manuals.

If the installation is a retrofit application, do not rely on the capacity of the existing heating equipment as a method to size the new furnace. Many of the heat transfer multiples listed in earlier versions of load calculation manuals were much higher than those listed in more recent editions. It is possible that energy saving measures have been completed since the installation of the existing furnace. This might include additional insulation in the attic or walls, the application of sprayed foam insulation, the addition of storm windows and doors, weather stripping, caulking, etc.

Many of the older furnaces were equipped with large belt drive blower systems, operating at low RPMs. If replacing an existing furnace, be sure that the existing ductwork can handle the amount of airflow necessary for a reasonable temperature rise. Most older gas furnaces operated with a system temperature rise of 70 - 100°F. This series furnace has been designed for operation with a system temperature rise (DT) of 35 - 65°F or 30 – 60°F depending on which model is being installed. See Table 1A below. If the furnace selected has an identical output capacity as the original furnace, a substantial increase in system airflow will be required. See Table 1B below.

TABLE 1A

TABLE 1B

FURNACE TEMPERATURE RISE

TYPICAL AIR FLOW

The equal friction chart, as published by ASHRAE and HRAI, is the basis for the various air duct calculators available through heating supply companies.

NOTE: The return air system is equally as important as the supply air system. An undersized return air system will prevent sufficient quantities of air from reaching the supply air system, properly sized or otherwise, and will consequently reduce the service life of the furnace and its components.

LOCATION of UNIT

GENERAL:

1.The furnace is not weatherized. Select a dry indoor location.

2.Select a location where the furnace venting can be routed between the furnace and the chimney or B-Vent with a minimum of lengths and fittings. Be sure to check that the proposed routing will meet code requirements with respect to minimum clearances.

3.Select a location as near as possible to the existing or proposed duct system.

4.The furnace location must permit access for servicing, and be within the clearance to combustibles guidelines as marked on the appliance rating plate.

5.The furnace should be installed on a firm base when installed in the upflow position. This is typically a concrete floor if installing the furnace in a basement.

6.If the furnace is being installed so that the return air will enter through the bottom, the perimeter of the furnace must be properly supported.

7.When installed in the horizontal position, the furnace may be supported from the bottom, or suspended.

8.When installed in the down flow position on a combustible floor, subbase kit #30476 is required (contact manufacturer for availability).

OTHER CONSIDERATIONS:

This furnace is not to be used for temporary heating of

 

buildings or structures under construction.

If this furnace is to be used with air conditioning and is

 

to be installed in an area over a finished ceiling or

Furnace Model

Tem perature

 

Rise

 

 

35-2

 

50-3

35 – 65 F

70-3

 

 

 

70-4

30 – 60 F

 

 

85-3

35 – 65 F

85-4

30 – 60 F

 

 

100-3

35 – 65 F

100-4

 

100-5

30 – 60 F

115-5

 

135-5

30 – 65 F

 

 

 

CFM Required for a

T of:

Model

 

 

 

 

35

45

55

65

35-2

737

574

469

397

 

 

 

 

 

50-3

1053

819

670

567

70-3

1433

1114

912

771

70-4

1433

1114

912

771

85-3

1791

1393

1140

964

85-4

1791

1393

1140

964

100-3

2107

1639

1341

1134

100-4

2107

1639

1341

1134

100-5

2107

1639

1341

1134

115-5

2423

1884

1542

1305

135-5

2844

2212

1810

1532

living area, install a field fabricated auxiliary drain pan

under the furnace to protect that area from accidental

condensate spills. The auxiliary pan should be large

enough to collect accidentally spilled condensate from

the air conditioning evaporator coil assembly if

applicable. Follow local codes.

• These furnaces are approved for installation in attics,

alcoves, utility rooms, closets and crawlspaces. If this

furnace is to be installed in a utility room, be sure that

it is located in such a way as to allow access for

servicing or the removal of any other appliance, (hot

water heater, for example).

• If the furnace is to be installed in a garage, the burners

must be a minimum of 18 inches (460 mm) above the

floor.

Existing ductwork should be assessed for its air handling capabilities. For residential applications, the recommended air velocity of a supply air trunk duct is 700 feet per minute (fpm), and should not exceed 900 fpm. The recommended air velocity of a supply air branch run is 600 fpm, and should not exceed 900 fpm. These values are slightly lower for flexible ducting. The recommended air velocity of a return air trunk duct is 600 fpm, and should not exceed 700 fpm. The recommended and maximum air velocity of a return air branch is 600 fpm.

If the furnace is to be installed in a commercial (repair)

 

garage, the burners must be a minimum of 4.5 feet

 

(1375 mm) above the floor.

The furnace must be protected from physical damage

 

by metal barriers or other acceptable means.

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Contents Model F80A Safety Rules SafetyIntroduction Do not Destroy this Manual What to do if YOU Smell GASCodes General Furnace SizingOther Considerations Inspection / Access Panel Installation PositionsAIR Conditioning Clearances Clearances to CombustiblesGuide DuctworkDuctwork Steps Case Furnace Located in AN Unconfined Space Determing Combustion AIRCase Furnace Located in a Confined Space Definitions Furnace VentingDesign Considerations Inducer Blower Installation Vent InstallationVent Sizing Vent Connector Left Inducer Position 35-2Vent Termination Dedicated VentingGAS Supply Existing Vent ConsiderationsGAS Piping Conversions High Altitude Specifications Canada High Altitude Specifications USAAirflow Specifications Electrical Specifications Outlet Regulator Pressure Vent BossLOW Voltage Wiring Furnace ConnectionImportant USE Copper Conductors only ThermostatStart UP Procedures To Start the FurnaceTo Shut Down the Furnace Sequence of OperationTemperature Rise Check Checking Furnace InputAirflow Maintenance Annual Inspection / ServiceElectronic AIR Cleaner HUMIDIFIER/ Electronic AIR CleanersInduced Blower Circulating FANTroubleshooting 50V51-250 General Troubleshooting WHITE-RODGERS Integrated FAN Control Factory Setting User’s Information Manual Furnace Components General Safety RulesRegulator Vent Furnace Operation Information Air Filter Sequence of Operation Variations

F80A specifications

The Fedders F80A is a notable air conditioning unit that has gained recognition for its efficiency, performance, and convenience. Designed to cater to both residential and light commercial spaces, it combines robust features with advanced technologies to provide optimal cooling solutions.

One of the standout characteristics of the Fedders F80A is its impressive cooling capacity. With a BTU rating that makes it suitable for medium-sized rooms, this unit efficiently maintains comfortable indoor temperatures even during the hottest summer months. Users can benefit from its powerful performance without worrying about energy wastage.

Energy efficiency is a critical aspect of the Fedders F80A. It features an Energy Efficiency Ratio (EER) that meets current regulatory standards, which translates to lower energy bills and a reduced environmental footprint. The inclusion of eco-friendly refrigerants further enhances its appeal, making it a responsible choice for environmentally-conscious consumers.

The Fedders F80A is also equipped with user-friendly controls. An intuitive remote control allows for easy operation from anywhere in the room. Additionally, the unit comes with programmable settings that let users schedule their cooling preferences, ensuring comfort at all times without unnecessary energy expenditure.

Another key feature of this model is its multi-speed fan. The fan operates on various speeds, providing users with flexibility in airflow and noise levels. Whether a quiet night is desired or a powerful cooling burst is needed, the Fedders F80A caters to individual preferences effectively.

Installation and maintenance are also areas where the Fedders F80A shines. Its relatively straightforward installation process allows for quick setup, and its design makes routine maintenance a hassle-free task. Periodic cleaning of the filters ensures continued efficient operation, contributing to the unit's durability and longevity.

Overall, the Fedders F80A combines powerful cooling capabilities with energy efficiency and user-centric features. Its blend of technology and user-friendly design makes it a suitable choice for anyone looking to invest in reliable air conditioning. With its reputation for performance and efficiency, the Fedders F80A stands as a commendable option in the competitive air conditioning market.
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