Lynn Kaowool 1035 Ceramic Fiber Wet Blanket, 36" L x 24" W x 1/2" T

• Withstands temperature 2300 deg F
• Soft and moist ceramic fiber blanket that can be formed to the shape of an existing chamber as a liner
• Formed and packaged wet - hardens when burner is fired
• High temperature ceramic fiber construction, non-freezing
• Kaowool construction for safety - contains no asbestos

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Beckett 5912U L1 Combustion Head Assembly,
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Beckett Parts 5912U

Beckett Parts 5880 Low Fire Rate Baffle for AF, AFG Series Oil Burners
R.W. Beckett Parts is the global market leader in the development and manufacturing of combustion products used in heating, cleaning equipment, and other custom applications. From industry-leading oil and gas burners and electronic safety controls for burners and boilers to igniters, oil deaerators, tank accessories, and other HVAC related products, Beckett Parts has developed solutions for a wide range of applications including residential and commercial heating, construction, food processing, heated pressure washing, agriculture, and more.,
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Beckett Parts Speed Fill 13150 Zamak Casting Magnetic Unlocking Device for use with 13100L Locking Cap

• Rust-proof zamak castings
• 100% interchangeable with industry standard oil fill-pipe nozzle adapter

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Honeywell V4046B1049/U Aluminum #2 Oil Straight Through Magnetic Valve for On/Off Control of Oil flow to Domestic Oil Burner Equipment, 1/8 Inch, 120 VAC

• Power interruption closes the valve immediately
• Mount directly to pipeline or on support bracket

Sid Harvey Item #:V4046B1049: Replaces Part #:'s : L40-098,
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Westwood A030 Metal Oil Filter Refill for General 2A-300 Filter

• With (2) gaskets

Sid Harvey Item #:A030: Replaces Part #:'s : 2M014,

Mitco 250-48 BIO Micro-Flo Bagged Oil Filter

Replaces 1A-25A,77,XF-25 Bio-Gaske

Bagged

Mitco 265LT BIO Mirco Upgrade Kit (Bio Gasket),
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Delavan 60046-1 Nozzle Line Filter for Use with Burners, 2 gph

Sid Harvey Item #:87-1: Replaces Part #:'s : 4M400,
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Flow Rate

Atomizing nozzles are available in a wide range of flow rates, all but eliminating the need for specially calibrated nozzles. Between 1.00 GPH and 2.00 GPH, for example, seven different flow rates are available. Generally, with hot water and warm air heat, the smallest firing rate that will adequately heat the house on the coldest day is the proper size to use and the most economical. Short on-cycles result in low efficiency. Another guideline is to select the flow rate that provides a reasonable stack temperature regardless of the connected load. (According to the New England Fuel Institute, aim for a stack temperature of 400°F or lower on matched packaged units or 500°F or lower on conversion burners.) If the boiler or furnace is undersized for the load, it may be necessary to fire for the load and ignore the efficiency
Spray Angle

Spray angles are available from 30° through 90° in most nozzle sizes to meet the requirements of a wide variety of burner air patterns and combustion chambers. Usually it is desirable to fit the spray angle to the air pattern of the burner. In todays flame retention burner, it is possible to fire more than one spray angle with good results. Generally, round or square combustion chambers should be fired with 70° to 90° nozzles. Long, narrow chambers usually require 30° to 60° spray angles.

Burner Air Patterns

Burner air patterns are much like nozzle spray patterns in that they fall into the same general classifications, either hollow or solid. As you would expect, a burner with a hollow air pattern generally requires a hollow cone fuel nozzle. A burner with a solid air pattern will give highest efficiency with a solid cone nozzle, but the flame will probably be longer.

Flow Rate

Atomizing nozzles are available in a wide range of flow rates, all but eliminating the need for specially calibrated nozzles. Between 1.00 GPH and 2.00 GPH, for example, seven different flow rates are available. Generally, with hot water and warm air heat, the smallest firing rate that will adequately heat the house on the coldest day is the proper size to use and the most economical. Short on-cycles result in low efficiency. Another guideline is to select the flow rate that provides a reasonable stack temperature regardless of the connected load. (According to the New England Fuel Institute, aim for a stack temperature of 400°F or lower on matched packaged units or 500°F or lower on conversion burners.) If the boiler or furnace is undersized for the load, it may be necessary to fire for the load and ignore the efficiency
Spray Angle

Spray angles are available from 30° through 90° in most nozzle sizes to meet the requirements of a wide variety of burner air patterns and combustion chambers. Usually it is desirable to fit the spray angle to the air pattern of the burner. In todays flame retention burner, it is possible to fire more than one spray angle with good results. Generally, round or square combustion chambers should be fired with 70° to 90° nozzles. Long, narrow chambers usually require 30° to 60° spray angles.

Burner Air Patterns

Burner air patterns are much like nozzle spray patterns in that they fall into the same general classifications, either hollow or solid. As you would expect, a burner with a hollow air pattern generally requires a hollow cone fuel nozzle. A burner with a solid air pattern will give highest efficiency with a solid cone nozzle, but the flame will probably be longer.

Flow Rate

Atomizing nozzles are available in a wide range of flow rates, all but eliminating the need for specially calibrated nozzles. Between 1.00 GPH and 2.00 GPH, for example, seven different flow rates are available. Generally, with hot water and warm air heat, the smallest firing rate that will adequately heat the house on the coldest day is the proper size to use and the most economical. Short on-cycles result in low efficiency. Another guideline is to select the flow rate that provides a reasonable stack temperature regardless of the connected load. (According to the New England Fuel Institute, aim for a stack temperature of 400°F or lower on matched packaged units or 500°F or lower on conversion burners.) If the boiler or furnace is undersized for the load, it may be necessary to fire for the load and ignore the efficiency
Spray Angle

Spray angles are available from 30° through 90° in most nozzle sizes to meet the requirements of a wide variety of burner air patterns and combustion chambers. Usually it is desirable to fit the spray angle to the air pattern of the burner. In todays flame retention burner, it is possible to fire more than one spray angle with good results. Generally, round or square combustion chambers should be fired with 70° to 90° nozzles. Long, narrow chambers usually require 30° to 60° spray angles.

Burner Air Patterns

Burner air patterns are much like nozzle spray patterns in that they fall into the same general classifications, either hollow or solid. As you would expect, a burner with a hollow air pattern generally requires a hollow cone fuel nozzle. A burner with a solid air pattern will give highest efficiency with a solid cone nozzle, but the flame will probably be longer.