‰Fuel supply

Oil Supply Pressure

Control Required

Damage to the pump, filter or other compo- nent seals could cause possible oil leakage and potential fire hazard.

yThe oil supply inlet pressure to the fuel unit cannot exceed 3 psig.

yDo NOT install valves in return line.

yEnsure that a pressure-limiting device is installed in accordance with the latest edition of the NFPA 31.

yThe fuel supply piping and tank must provide #1 or #2 fuel oil at pressure or vacuum conditions suitable for the fuel unit (oil pump) on the burner. Refer to fuel unit literature in the literature envelope in the burner carton to verify allowable suction pressure.

If fuel supply is level with or higher than fuel unit

yWhen the fuel unit is not required to lift the oil, the installation is usually suitable for either a one-pipe or two- pipe oil system. The oil pressure at the inlet of the fuel unit must not exceed 3 psig.

yRefer to the Mount the Burner Section of this manual for one-pipe or two-pipe fuel supply installation instructions.

If fuel supply is below the fuel unit —

yUse a two-pipe oil system when the fuel unit must lift the oil more than 8 feet if burner is equipped with a B fuel unit. The return line provided by the two-pipe system is needed to purge the air from the fuel lines and minimize the likelihood of air-related problems during operation.

‰Nozzle pressure

Correct Nozzle and Flow

Rate Required

Incorrect nozzles and flow rates could result in impaired combustion, under- firing, over-firing, sooting, puff-back of hot gases, smoke and potential fire or asphyxiation hazards.

Use only nozzles having the brand, flow rate (gph), spray angle and pattern specified by the appliance manufacturer.

Follow the appliance manufacturer’s specifications for the required pump outlet pressure for the nozzle, since this affects the flow rate.

yNozzle manufacturers calibrate nozzle flow rates at 100 psig.

yThis burner utilizes pressures higher than 100 psig, so the actual nozzle flow rate will be greater than the gph stamped on the nozzle body. (Example: A 4.00 gph nozzle at 140 psig = 4.70 gph.

yFor typical nozzle flow rates at various pressures see accompanying chart.

yThe fuel unit nozzle port pressure is factory set at 140 psig. Some original equipment manufacturer burner appli- cations may call for a lower pressure to obtain a required firing rate. Do not change this pressure unless directed to do so by the appliance manufacturer.

‰Electrical supply

yVerify that the power connections available are correct for the burner. Refer to Figure 1. All power must be supplied through fused disconnect switches.

‰ Vent system

y The flue gas venting system must be in good condition and must comply with all applicable codes.

Figure 1. Typical Nameplate

General Model Information

 

 

Model “XX”

 

 

 

 

Series (Fuel) Burner

 

 

 

SERIAL NUMBER

Serial Number,Including Date Code 050214-00000

Rating Information

 

Motor Circ: 120V/60Hz 4.0A

Approval Agency Symbols

 

 

Control Circ: 120V/60Hz 4.5A

 

 

 

 

 

LISTED

 

 

 

 

 

(FUEL) BURNER

 

 

 

R.W. Beckett Corp.

 

 

 

Elyria, Ohio

 

 

 

Made in the U.S.A.

 

 

 

 

 

 

 

For use with Group 8 . . .

Primary Group and Fuel

 

 

MP 1192 XX000 R00

 

 

 

 

 

MFR’S SETTINGS

 

X

 

 

 

 

 

 

X

 

 

 

 

R.W. Beckett Construction & Setting Data

 

X

 

 

 

 

 

 

 

 

 

 

 

 

 

X

 

 

 

 

 

 

X

 

 

 

 

 

 

X

 

 

 

 

 

 

 

 

 

 

 

 

 

R.W. Beckett Specification

 

 

 

 

 

 

 

 

 

XX000 R00

 

050214-00000

 

 

 

 

 

 

Number and Revision

 

 

 

 

 

 

 

 

 

 

 

 

Boiler Manufacturer and

 

 

 

 

 

 

 

 

Model, When Applicable

 

 

 

 

 

 

 

 

Additional Codes

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

L0002

6104 BCF5 R07

5

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Beckett 800, CF500 manual Oil Supply Pressure Control Required, Correct Nozzle and Flow Rate Required

800, CF500 specifications

The Beckett CF500 and CF800 are advanced oil-fired boiler systems designed to provide reliable heating solutions for both residential and commercial applications. Known for their efficiency and cutting-edge technology, these models exhibit a variety of features that distinguish them in the heating market.

One of the standout characteristics of the Beckett CF500 and CF800 is their high combustion efficiency. Both models utilize a unique air control system that optimizes the air-fuel mixture, ensuring complete combustion and reducing emissions. This not only enhances performance but also benefits the environment by minimizing the carbon footprint.

The CF500 features a compact design, making it ideal for installations in tighter spaces. Its rugged construction ensures durability and longevity, often requiring less maintenance than competing systems. This model is equipped with advanced safety features, including a primary safety control and a backup safety circuit, ensuring secure operation in any conditions.

On the other hand, the CF800 is designed for larger applications, boasting a higher capacity and output. Its powerful burner system can handle higher BTU outputs, making it suitable for demanding heating needs. Like the CF500, the CF800 also features the advanced air-fuel management system, along with an innovative ignition system that guarantees quick starts and efficient operation.

Both models are engineered for ease of installation and maintenance. Their intuitive design allows for straightforward setup, while accessible components simplify routine servicing. Additionally, Beckett offers comprehensive support and resources, ensuring users can operate their systems effectively and efficiently.

Another notable technology integrated into these models is the noise reduction features. The quiet operation of both the CF500 and CF800 allows for a comfortable indoor environment, whether it's in a residential setup or a commercial facility.

In summary, the Beckett CF500 and CF800 represent a blend of efficiency, safety, and ease of use in oil-fired heating solutions. Their advanced features and technological innovations not only meet the heating demands of various applications but also support environmentally-conscious practices, making them an excellent choice for modern heating systems.