Wayne P265F, P250AF-DI, P250AF-EP Preparation of Furnace or Boiler, Flue Pipe and Draft Hood

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PREPARATION OF FURNACE OR BOILER

Clean combustion chamber thoroughly. Scrape and brush all heating surfaces and flue ways. Soot and fly ash are excellent insulators and unless removed the efficiency of the heating plant will be impaired. Plugged or restricted flue passages will prevent burner from operating properly.

Be sure water column and gauge on boiler is clean and water level is visible. In all cases make sure the pigtail to limit control is clear. Safety pop valves on team boilers and automatic relief valves on closed water systems should be thoroughly checked to make sure they are in good working condition.

FLUE PIPE AND DRAFT HOOD

A CSA type draft hood or its equivalent shall be placed in and made part of the flue pipe from the appliance. At no time should the draft hood be located at a point lower than the highest flue passage in the appliance. The draft hood should be installed in the position for which it was designed and in no case installed in a false ceiling, separate room from the heating appliance, or in any other manner that will permit a difference in pressure between the draft hood relief opening and the combustion air supply. On sealed type appliances where all combustion air is taken from the outside, a cap should be installed on end of flue pipe to prevent back drafts. In such cases no draft hood or diverter should be installed inside. See Figure 4.

When converting oil fire appliances the flue pipe and draft hood or diverter used should be the same size as the furnace flue collar. It is recommended that a rise as great as possible or at least 1/4 inch (6.35mm) to the foot (.305m) (horizontal length) be maintained in the flue pipe from the appliance to the chimney. The flue pipe should be relocated where possible to avoid sharp turns.

DRAFT HOOD & FLUE PIPE SIZES FOR GAS CONVERSION

BURNERS IN UP-DRAFT COAL FURNACES ND BOILERS

Not more than 6,500 BTU (1.905 kW) per inch (645.2 mm2) of the flue area

Input - BTU (kW)

Draft Hood and

Per Hour

Flue Pipe Size

Up to --- 120,000 (35.17)

5 inch (127mm)

120,000 (35.17) --- 180,000 (52.75)

6 inch (152.4mm)

180,000 (52.75) --- 250,000 (73.27)

7 inch (177.8mm)

 

 

NOTE: If the flue pipe exceeds 10 ft. (3.048m) in length, or contains more than two elbows, use next size larger pipe and draft hood.

NO MOVEABLE FLUE PIPE DAMPER SHOULD BE USED ON ANY INSTALLATION.

NOTE: All installations must operate with negative draft overfire. Refer to your local gas company and codes for assistance.

REVERTIBLE FLUE (DOWN DRAFT OR DIVING FLUE TYPE) FURNACES OR BOILERS

When installing the burner in the above type furnaces or boilers, the draft hood (or draft diverter) should be located at least one foot higher than the top of the highest point of the appliance flue passage or combustion chamber. It is also recommended that a vent pipe, not less than one inch in diameter, be provided from the highest point in the flue passage, directly to the flue pipe. This is not necessary on the appliances with built in up draft bypass. (See Figure 3.) The gas company serving the area should be consulted in regards to their recommendations for converting this type of furnace or boiler.

The flue pipe should be securely supported and the joints fastened with sheet metal screws or riveted to prevent sagging, and in no case should be located in a manner that will present a hazard to combustible building material. (Refer to local building code.)

PREPARATION OF COMBUSTION CHAMBER

THE POWER GAS BURNER IS DESIGNED FOR “INSHOT” FIRING INTO A REFACTORY LINED COMBUSTION CHAMBER CONSTRUCTED IN THE ASH PIT OF ANY BOILER OR FURNACE ORIGINALLY DESIGNED FOR COAL OR OIL FIRING. THE SIZE, SHAPE AND CONSTRUCTION OF THE CHAMBER SHOULD BE GIVEN SUCH CONSIDERATION AS WILL RESULT IN THE MAXIMUM EFFICIENCY OF EACH INSTALLATION.

On smaller inputs precast chambers may be used if the firing door and ash pit are large enough to insert the chambers and assemble.

When converting oil designed boilers and furnaces, it is recommended that the same combustion chamber be used with the gas burner. If the blast tube opening into the combustion chamber is larger than the 4” (101.6mm) diameter, high temperature cement should be used to reduce the opening to 4” (101.6mm) diameter.

IN NO CASE SHOULD THE TUBE BE ALLOWED TO EXTEND INTO THE CHAMBER PROPER. IT MUST BE AT LEAST 1/8” (3.175mm) SHORT OF THE INSIDE SURFACE OF THE COMBUSTION CHAMBER.

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Contents Wayne Combustion Systems Burner Models Minimum Input Maximum Input FuelsGlasgow AVE Fort WAYNE, Should Overheating OccurVisual Inspection of the Heating System Inspection of Heating Appliance Flue Pipe and Chimney12.7 mm Minimum rise 1/4 6.35 mm to the foot .305 m Preparation of Combustion Chamber Preparation of Furnace or BoilerFlue Pipe and Draft Hood Combustion Chambers Installation of Burner and ControlsSizing of Input in Relation to Furnace Natural GAS Propane GAS InputP265F only P250 onlyP265 only Limit Control Switches Electrical WiringTesting Piping for Leaks ThermostatEffective Overall Pipe Size Length Thread PurgingPipe Capacity Table Multiplier for Various Specific Gravities GravityStanding Pilot Combination GAS Valve Electronic Pilot Adjustment of BurnerP265DI P265DI Junction BOX RotatedFIG. a Best Locations for GASGeneral Instruction SymptomsTrouble Chart Cause Operation ServiceShutting Down the Burner Start Stage Power InterruptionThermostat Controller Calls for Heat Spark Generator Pilot Burner OperationStart Direct Spark Ignition Honeywell S87K System P250AF Direct Spar Electrode LocationDirect Spark Ignition Honeywell System DescriptionPreliminary Checks TroubleshootingWiring Diagram Honeywell S87KDI System Ladder Form Service HINT, Diagnosis and Corrective MeasuresWHAT’S Wrong WHY What to do See chart Description P265FBB Parts List P265/P265F Series GAS BurnersP265FEP P265FDIP250AF EP P250AF DI Parts List P250AF Series GAS BurnersPage Wayne Combustion Systems

P265, P250AF, P265-EP, P250AF-DI, P250AF-EP specifications

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