Plastic Centrifugal

Posted on by tugz2

Oberdorfer Centrifugal pumps are of the single stage and end suction. Models use open vane style and enclosed style impellers. Centrifugals convert driver energy to kinetic energy in a liquid by accelerating it to the outer rim of a revolving impeller. Since the amount of energy given to the liquid corresponds to the velocity at the impeller vane tip, the faster the impeller revolves (or the bigger the impeller is), the higher the velocity of the liquid at the vane tip and the greater the energy transferred to the liquid. In comparison to positive displacement devices, centrifugals are quieter and require no relief valve to protect the pumps from pressure build-up.

These pumps contain few moving parts resulting in less wear and less maintenance. Our centrifugal family models are constructed out of bronze, which is ideal in marine applications and for handling harsh solvents. Our centrifugal pumps provide up to 20 feet of suction lift and can handle most difficult solvents with the proper fluoroelastomer or Polytetrafluoroethylene (PTFE) seal. Several of our centrifugal models are self-priming.

Centrifugal Pump – 142

These compact high speed centrifugal pumps are suited for a variety of industrial and commercial applications. They are particularly well suited for portable liquid cleaning machinery, laboratory use and spray installations.

design’s symmetry provides a wide range of configuration possibilities allowing ready customization of discharge port position and optional air vent orientation relative to the motor base.

Features

 

  • Chemical resistant construction
  • Body and Adapter made of non-metallic glass reinforced Nylon 6/6
  • Impeller made of non-metallic glass reinforced PPS
  • Mechanical Seal – Type 6A carbon/ceramic faces, fluoroelastomer elastomers
  • Barbed -Hose Connections
  • Static Nitrile O-Ring body/adapter seal
  • Integrated Air Vent – prevents loss of prime
  • Compact and Lightweight
  • Installation/Mounting Versatility – port orientation
  • Universal – Open Drip Proof Motors with internal fan cooling, UL, CSA
  • No 18 Wire leads – 25″ long
  • Low amperage – 120VAC, 240VAC (Optional: double insulation) and 12VDC versions.

Performance

  • Max Flow: 2.2 GPM – 8.33 LPM
  • Max Pressure: 35 PSI – 2.4 BAR

DRIVE

One of the outstanding features of this pump is its compact A.C. or D.C. motor size. The motors are ODP with an internal cooling fan and are UL listed and is rated for continuous duty. Rotation is clockwise from shaft. 50 Hz is permitted. There is a #6-32 tapped hole ground connection provided on the end of metal framed motors.

LIQUIDS & TEMPERATURES

Maximum fluid temperature is 200°F. Fluids must be compatible with fluoroelastomer seal elastomer. To promote long product life, assure that ambient air can circulate around the unit to prevent over-heating. Ground metal frame motors. There is a #6-32 tapped hole ground connection provided on the end of metal framed motors.

SUCTION LIFT

Prevent air trapping in plumbing lines by avoiding loops. Use air vent fitting connection to purge air. Though capable of pulling slight vacuum, the pump performs best under flooded suction conditions when located for gravity feed.

An optional air vent fitting prevents loss of prime that can occur due to entrapped air. It is factory installed with a disposable vent cap. Entrapped air can be encountered in applications where the liquid in the supply tank is completely exhausted. Air can be introduced to the system before the next tank filling.

For best results, configure and install pump with air vent near the top.

Centrifugal Pump – 144

These compact high speed centrifugal pumps are suited for a variety of applications including condensate removal. They are particularly well suited for handling soap solutions in extraction type carpet cleaning equipment. The design’s symmetry provides a wide range of configuration possibilities allowing ready customization of discharge port position and optional air vent orientation relative to the motor base.

Features

 

  • Chemical resistant construction
  • Body and Adapter made of non-metallic glass reinforced Nylon 6/6
  • Impeller made of non-metallic glass reinforced PPS
  • Mechanical Seal – carbon / ceramic faces, silicone rubber elastomer
  • Tolerates intermittent dry running
  • Barbed -Hose Connections
  • Static Nitrile O-Ring body/adapter seal
  • Integrated Air Vent – prevents loss of prime
  • Compact and Lightweight
  • Installation/Mounting Versatility – port orientation
  • Universal – Open Drip Proof Motors with internal fan cooling, UL listed
  • No 18 Wire leads – 25″ long
  • Low amperage
  • 120VAC, 240VAC (Optional: double insulation) and 12VDC versions.

Performance

  • Max Flow: 2.2 GPM – 8.33 LPM
  • Max Pressure: 40 PSI – 2.76 BAR

DRIVE

One of the outstanding features of this pump is its compact A.C. or D.C. motor size. The motors are ODP with an internal cooling fan and are UL listed and is rated for continuous duty. Rotation is clockwise from shaft. 50 Hz is permitted. There is a #6-32 tapped hole ground connection provided on the end of metal framed motors.

LIQUIDS & TEMPERATURES

Maximum fluid temperature is 180°F (82.2°C). Fluids must be compatible with silicone rubber seal elastomer. To promote long product life, assure that ambient air can circulate around the unit to prevent over-heating. Ground metal frame motors.

SUCTION LIFT

Prevent air trapping in plumbing lines by avoiding loops. Use air vent fitting connection to purge air. Though capable of pulling slight vacuum, the pump performs best under flooded suction conditions when located for gravity feed.

An optional air vent fitting prevents loss of prime that can occur due to entrapped air. It is factory installed with a disposable vent cap. Entrapped air can be encountered in applications where the liquid in the supply tank is completely exhausted. Air can be introduced to the system before the next tank filling.

For best results, configure and install pump with air vent near the top.

What is a Centrifugal Pump?

 
Introduction

A centrifugal pump is a rotodynamic pump that uses a rotating impeller to increase the pressure and flow rate of a fluid. Centrifugal pumps are the most common type of pump used to move liquids through a piping system. The fluid enters the pump impeller along or near to the rotating axis and is accelerated by the impeller, flowing radially outward or axially into a diffuser or volute chamber, from where it exits into the downstream piping system.

Centrifugal pumps are most often associated with the radial flow type. However, the term “centrifugal pump” can be used to describe all impeller type rotodynamic pumps including the radial, axial and mixed flow variations.

Design

Oberdorfer Centrifugal pumps are of the single stage and end suction. Models use open vane style and enclosed style impellers. Centrifugals convert driver energy to kinetic energy in a liquid by accelerating it to the outer rim of a revolving impeller. Since the amount of energy given to the liquid corresponds to the velocity at the impeller’s vane tip, the faster the impeller revolves (or the bigger the impeller is), the higher the velocity of the liquid at the vane tip and the greater the energy imparted to the liquid. In comparison to positive displacement devices, centrifugals are quieter and require no relief valve to protect the pumps from pressure build-up.

Application Range

Centrifugals are well suited for thin fluids and normally run at 3450 RPM speed. Because these units have large internal clearances, they can handle small impurities in the fluid. Bronze centrifugals can pump a variety of common fluids in the PH range from 4-11 and are particularly well suited for non-potable water or sea water service. The temperature limit for units equipped with buna seals is 212oF. Solvent handling and higher temperatures are possible with viton or teflon seals. Centrifugals are not well suited for viscous fluids; becoming less efficient with increased viscosities. The product portfolio of over 28 models spans a hydraulic coverage range from 2.2 GPM to 100 GPM with pressures to 58 psi (135 feet).

Pump Driver Mounting

Close Coupled Pump Heads – pump adapters provide the required alignment to C-faced motors.

Impeller Shimming – Since jet pump motor shaft projections can vary, pump heads are provided with impeller shim kits. In general, an air gap of 0.010” to 0.015” is recommended between the rear shroud of the impeller and the motor adapter face. Once the pump casing is mounted, check to be sure that the impeller is not rubbing against the casing. Adjust shimming as needed.

Pedestal Pumps – Some base mount kits designed for use with Oberdorfer Bronze Gear Pumps, may also be adaptable for use with Oberdorfer Pedestal Centrifugal pumps. These kits include baseplate, coupling components, coupling guard, and hardware.

Construction

Housings: Oberdorfer Pumps metal pump housings are made of top quality rugged cast bronze or light weight corrosion resistant cast aluminum. Shafts are corrosion resistant stainless steel or Monel.

Bearings: Pedestal Pumps use heavy duty “lubricated for life” ball bearings suitable for pulley loads. Most of the Close Coupled pumps are designed to fit jet pump C-faced motors; relying on the motor bearings to support pump loads.

Seals: Conventional mechanical shaft seals with carbon and ceramic faces are used. A variety of elastomers and seal styles are available. Model 170M uses a lip seal instead. Static housing sealing is accomplished with elastomeric O-ring seals or cellulose gaskets.