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NV12B6FE1T Vertical Pump - - Crystal Quest Water Filters
NV12B6FE1T Vertical Pump - - Crystal Quest Water Filters
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V-Flow Pump NV12-6S

SKU: SWP-NV12B6FE1T
$4,349.99
  • 12GPM / Six-stage hydraulic design for consistent high pressure
  • 304 stainless steel construction for corrosion resistance and long service life
  • Maintenance-free cartridge mechanical seals for simplified servicing
  • Vertical Design to save space in mechanical rooms or tight installations
  • Versatile Applications including reverse osmosis, water treatment, irrigation, and industrial water boosting
Rendering loop-subscriptions

Product Description

The V-Flow Pump NV12-6S is a high-efficiency, ten-stage vertical booster pump designed for industrial, commercial, and agricultural applications. Its vertical, in-line design saves valuable floor space while delivering reliable, consistent performance in demanding environments.

Motor Options

  • Single-Phase Motor
    • Ideal for locations without three-phase power
    • Provides the same flow capacity and pressure as the three-phase model
    • Slightly lower electrical efficiency and better suited for lighter duty cycles

This pump is well-suited for reverse osmosis, water treatment, irrigation, sprinkler systems, hot and cold water circulation, and general water boosting applications.

The V-Flow Pump NV12-6S combines precision engineering with dependable performance, making it a trusted choice for a wide range of water handling needs.

V-Flow Pump NV12-6S

Vertical Multistage Booster Pump – 304 Stainless Steel

Technical Specifications
Rated Flow 12 GPM
Stages 6
Max Working Pressure 362 PSI
Max Inlet Pressure 150 PSI
Motor Power 1 HP
Motor Phase / Frequency 1PH / 60Hz
Motor Frame 56C
Motor Enclosure T - TEFC
Pump Length (Flanged) 14.13 in
Weight (Flanged) 36 lbs

Construction & Design Features (304 Stainless Steel Model)

Component Material (304 SS Models)
Motor Bracket Cast Iron
Pump Head 304 Stainless Steel
Impeller 304 Stainless Steel
Diffuser 304 Stainless Steel
Neck Ring Teflon
Shaft 431 Stainless Steel
Casing 304 Stainless Steel
O-Ring EPDM
Pump Base 304 Stainless Steel
Base Plate Cast Iron
Mechanical Seal Silicon Carbide/Silicon Carbide/EPDM

Installation Manual

Installation Instructions for V-Flow Pump NV12-6S

  1. Preparation:
    • Inspect the pump and motor for any damage during shipment. Report any damage immediately to the carrier or dealer.
    • Ensure the installation site is level, stable, and provides sufficient space and ventilation for service and motor cooling.
    • Check that the pump model matches the job requirements.
  2. Mounting the Pump:
    • Secure the pump base to a solid, flat surface to prevent vibrations during operation.
    • Align and support suction and discharge piping to avoid undue strain on the pump.
    • Install isolation valves on both the suction and discharge sides for maintenance convenience.
  3. Piping Connections:
    • Ensure piping is properly sized and matches the pump's flanged connections (1.25” ANSI 150#).
    • Install gaskets on flanges to prevent leaks. Ensure they do not restrict flow.
    • Remove any protective stickers or caps from the suction and discharge flanges.
    • For hot water systems, include a bleed valve in the discharge line to relieve pressure during service.
  4. Electrical Connection:
    • Have a certified electrician verify the electrical supply matches the pump motor's specifications (1-phase, TEFC).
    • Check motor wiring for correct rotation. Rotation should be counterclockwise when viewed from the motor's rear.
    • For 3-phase motors, reverse any two leads to correct rotation if needed.
  5. Priming the Pump:
    • Remove the fill plug and fill the pump casing with water using a funnel.
    • Open the vent plug's 9mm needle valve to allow air to escape while filling.
    • Close the valve and reinstall the fill plug once water flows steadily from the vent.
  6. Testing:
    • Open the suction valve fully and partially open the discharge valve.
    • Apply power to the motor and check for smooth operation without noise or vibration.
    • Gradually open the discharge valve to desired operating conditions.
  7. Safety Precautions:
    • Never operate the pump without water. This can damage internal components.
    • Always replace coupling guards after installation to prevent injuries.
    • Ensure the pump is properly grounded and free from leaks before starting.
 

Product Description

The V-Flow Pump NV12-6S is a high-efficiency, ten-stage vertical booster pump designed for industrial, commercial, and agricultural applications. Its vertical, in-line design saves valuable floor space while delivering reliable, consistent performance in demanding environments.

Motor Options

  • Single-Phase Motor
    • Ideal for locations without three-phase power
    • Provides the same flow capacity and pressure as the three-phase model
    • Slightly lower electrical efficiency and better suited for lighter duty cycles

This pump is well-suited for reverse osmosis, water treatment, irrigation, sprinkler systems, hot and cold water circulation, and general water boosting applications.

The V-Flow Pump NV12-6S combines precision engineering with dependable performance, making it a trusted choice for a wide range of water handling needs.

V-Flow Pump NV12-6S

Vertical Multistage Booster Pump – 304 Stainless Steel

Technical Specifications
Rated Flow 12 GPM
Stages 6
Max Working Pressure 362 PSI
Max Inlet Pressure 150 PSI
Motor Power 1 HP
Motor Phase / Frequency 1PH / 60Hz
Motor Frame 56C
Motor Enclosure T - TEFC
Pump Length (Flanged) 14.13 in
Weight (Flanged) 36 lbs

Construction & Design Features (304 Stainless Steel Model)

Component Material (304 SS Models)
Motor Bracket Cast Iron
Pump Head 304 Stainless Steel
Impeller 304 Stainless Steel
Diffuser 304 Stainless Steel
Neck Ring Teflon
Shaft 431 Stainless Steel
Casing 304 Stainless Steel
O-Ring EPDM
Pump Base 304 Stainless Steel
Base Plate Cast Iron
Mechanical Seal Silicon Carbide/Silicon Carbide/EPDM

Installation Manual

Installation Instructions for V-Flow Pump NV12-6S

  1. Preparation:
    • Inspect the pump and motor for any damage during shipment. Report any damage immediately to the carrier or dealer.
    • Ensure the installation site is level, stable, and provides sufficient space and ventilation for service and motor cooling.
    • Check that the pump model matches the job requirements.
  2. Mounting the Pump:
    • Secure the pump base to a solid, flat surface to prevent vibrations during operation.
    • Align and support suction and discharge piping to avoid undue strain on the pump.
    • Install isolation valves on both the suction and discharge sides for maintenance convenience.
  3. Piping Connections:
    • Ensure piping is properly sized and matches the pump's flanged connections (1.25” ANSI 150#).
    • Install gaskets on flanges to prevent leaks. Ensure they do not restrict flow.
    • Remove any protective stickers or caps from the suction and discharge flanges.
    • For hot water systems, include a bleed valve in the discharge line to relieve pressure during service.
  4. Electrical Connection:
    • Have a certified electrician verify the electrical supply matches the pump motor's specifications (1-phase, TEFC).
    • Check motor wiring for correct rotation. Rotation should be counterclockwise when viewed from the motor's rear.
    • For 3-phase motors, reverse any two leads to correct rotation if needed.
  5. Priming the Pump:
    • Remove the fill plug and fill the pump casing with water using a funnel.
    • Open the vent plug's 9mm needle valve to allow air to escape while filling.
    • Close the valve and reinstall the fill plug once water flows steadily from the vent.
  6. Testing:
    • Open the suction valve fully and partially open the discharge valve.
    • Apply power to the motor and check for smooth operation without noise or vibration.
    • Gradually open the discharge valve to desired operating conditions.
  7. Safety Precautions:
    • Never operate the pump without water. This can damage internal components.
    • Always replace coupling guards after installation to prevent injuries.
    • Ensure the pump is properly grounded and free from leaks before starting.