Tube & Pipe Cleaners

Soot Buster Firetube Boiler Tube Cleaning System

Soot Buster

Firetube Boiler Tube Cleaning System

The Soot Buster, used for cleaning firetube boiler tubes, is a pneumatically actuated cleaning tool that propels itself inside of tubes and scrubs the tube ID with each pulse.

  • Tube Size: 1-1/4″ to 4″ (31.8 – 101.6mm) OD

  • Tube Section: Straight

  • Deposit Type: Soft (Soot)

  • Thickness: Light & Medium

  • Flush: Dry

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Roto-Jet Rotary Tube Cleaning System

Roto-Jet

Rotary Tube Cleaning System

Elliott’s Roto-Jet Tube Cleaning Systems are an effective solution to increasing chiller, condenser, and other heat exchanger efficiency.

  • Tube Size: 0.312″ to 2.0″ (7.9 - 50.8mm) ID

  • Tube Section: Straight or Curved

  • Type: Soft, Gummy, Or Organic

  • Thickness: Light to Medium

  • Flush: Wet & Dry

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Die-Hard™ Cableless Tube Cleaner

Die-Hard™

Cableless Tube Cleaner

Elliott’s Die-Hard™ is the first cableless tube cleaner that successfully cleans light to medium deposits found in chiller, condenser, and heat exchanger tubes.

  • Tube Size: 3/4″ to 1″ (19.1 – 25.4mm) OD

  • Tube Section: Straight

  • Deposit Type: Soft, Gummy, or Organic

  • Thickness: Light to Medium

  • Flush: Wet

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5224XL & 5125 Series Heat Exchanger Cleaners

5224XL & 5125 Series

Heat Exchanger Cleaners

Elliott’s Heat Exchanger Tube Cleaners utilize a rigid shaft to provide high torque cleaning to remove hard deposits often found in heat exchanger tubes. These cleaners are ideal in sugar mills, paper mills, chemical plants, and oil refineries.

  • Tube Size: 1/2″ to 2.0″ (9.5 – 50.8mm) OD

  • Tube Section: Straight

  • Deposit Type: Soft, Gummy, Organic, Hard Powder, & Rock Solid

  • Thickness: Light, Medium, Heavy

  • Flush: Wet & Dry

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Aluminum Siphon Tube Cleaners Turbine Style Tube Cleaners

Aluminum Siphon Tube Cleaners

Turbine Style Tube Cleaners

Elliott’s powerful turbine style motors and drill heads offer aggressively fast cleaning and are engineered specifically for aluminum siphon tubes.

  • Tube Size: 2.875″ to 4.750″ (73.0 – 120.65mm) ID

  • Tube Section: Curved

  • Type: Hard Powder & Rock Solid

  • Thickness: Heavy

  • Flush: Dry

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ET Series Pipe Rattling Equipment Oil Field Pipeyard Cleaning Motors & Heads

ET Series Pipe Rattling Equipment

Oil Field Pipeyard Cleaning Motors & Heads

The ET Series pipe rattling motors and heads are designed and tested using advanced engineering principles to confidently withstand tough cleaning applications and provide long tool life.

  • Tube Size: 3/4” to 5-7/8” (19.05 – 149.235mm) OD

  • Tube Section: Straight

  • Deposit Type: Hard Powder & Rock Solid

  • Thickness: Medium to Heavy

  • Flush: Dry

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Jumbo Jiffy Gun Shoot Through Tube Cleaning System

Jumbo Jiffy Gun

Shoot Through Tube Cleaning System

The Jumbo Jiffy Gun is powered by an air and water combination to propel reusable shoot through devices. Elliott’s Jumbo Jiffy Gun is the preferred method for cleaning condenser tubes in power utility plants, pulp, paper, steel mills, and petrochemical plants.

  • Tube Size: 3/8″ to 1-1/4″ (9.5 – 31.8mm) OD

  • Tube Section: Straight

  • Deposit Type: Soft, Gummy, or Organic

  • Thickness: Light & Medium

  • Flush: Wet

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Pipe Rattling Equipment

These product kits have been specially designed for the oil field. They are recommended for the most common sizes used in the oil field today.

  • Tube Size: 2.375" to 20.000" (60.3 - 508.0mm)

  • Tube Section: Straight

  • Type: Hard Powder and Rock Solid

  • Thickness: Medium to Heavy

  • Flush: Dry

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Turbine Style Tube Cleaners D600, 1100, & 1300 Series

Turbine Style Tube Cleaners

D600, 1100, & 1300 Series

The air turbine style motor design provides an immediate and powerful startup to drive the cleaning head down the tube at a high speed, removing light to medium deposits of scale, mud, and other process residues.

  • Tube Size: 0.495″ to 13.225″ (12.57 – 335.9mm) OD

  • Tube Section: Straight & Curved

  • Deposit Type: Soft, Gummy, Organic, Hard Powder, & Rock Solid

  • Thickness: Light to Heavy

  • Flush: Dry

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Gas Line Renewal

The air turbine style motor design provides an immediate and powerful startup to drive the cleaning head down the tube at a high speed, removing light to medium deposits of scale, mud, and other process residues.

  • Pipe Size: 0.750" to 1.500" (19.05 - 38.10mm)

  • Tube Section: Straight

  • Type: Soft, Gummy, Organic, and Hard Powder

  • Thickness: Light to Medium

  • Flush: Dry

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Operating Hoses

Elliott’s 85 Series Operating Hoses are designed to perform even in the toughest applications. Utilizing the latest manufacturing techniques and materials, these hoses provide the durability and rigidity you need to get the job done.

  • Pipe Thread: 0.125″ to 1.250″ (3.18 to 31.8mm)

  • Type: Standard, Heavy Duty, High Temperature

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Suggested Articles

Advantages to Mechanical Tube Cleaning

Tube cleaning is a necessary part of any vessel maintenance process. Depending on the application, water, gases, and other caustic chemicals can be run through the unit. Overtime, these compounds cause deposit build-up inside of the tubes, resulting in a loss in operating efficiency.

What Makes A Quality Air Motor?

The quality of an air motor will be determined based on manufacturing processes, design, and maintenance. In order to improve cleaning performance and tool life, it is important that the motor is designed for use in a specific application. This assures optimum performance and extended life of the motor.

Eliminate The Hassle Of Broken Or Jammed Tube Cleaner Cables

Contractors and maintenance personnel agree, the current method of tube cleaning using a rotary flexible cable to clean chillers is a hassle. The cable is problematic; it breaks, the feeding mechanism jams, and the feeder needs frequent and costly repairs. Substantial downtime is encountered to repair cables and units.

What Inferior Pipe Rattling Cutters Are Really Costing You

Materials, manufacturing processes, and engineering principles all influence the quality of a cutter. In order for it to perform in tough applications, it needs to have the right combination of variables. Otherwise, the cutter can fail prematurely or provide inadequate cleaning performance.