VIT Lineshaft Turbine Pumps

Overview Specifications Industries & Applications Technology
Overview

Overview

Product Features
  • Hydraulic coverage from 15K-50K GPM
  • High pressure solutions
  • Industry-leading efficiencies across coverage range
  • Options for low-NPSHa conditions and suction lift concerns
  • Application-specific product options and material choices, including option for corrosive/abrasive services
  • Customizable configurations for site-specific needs, such as above/below ground discharge
  • Minimal floor space requirements
  • Vertical Hollow Shaft or Vertical Solid Shaft motor options

Multistage lineshaft vertical turbine pumps are ideal for wet pit, open sump, or deep well pumping. Lineshaft vertical turbines are configured such that the hydraulic components are submerged into the pumped fluid while the motor is located above ground, making it easy to access electrical components.

This style of pump offers more material and configuration flexibility than submersible pump and motor combinations for applications with higher temperatures or varying fluid properties. Lineshaft column assemblies can be open or enclosed, depending on the application.

Engineered for Complex Applications

  • Industrial Process Pumps
  • Industrial/Commercial Water Supply
  • Seawater and Raw Water Intake
  • Municipal Water and Wastewater
  • Utility Circulating Water
  • Filter Backwash
  • Effluent Transfer
  • Plant Water Systems
  • Storage Terminal Transport
  • Power Generation
  • Condenser Circulating Water Pumps
  • Water Parks
  • Mining
  • Dewatering and Flood Control
  • Industrial Cooling Tower
  • Snow Making
  • Chemical Process
  • Packaged Pump Stations

Explore pump sizes smaller than 30''

Specifications

Specifications

Specifications
Pump Size
Capacity
Head
50 HZ
760 to 1,200 mm
3,400 to 11,500 m3/h
up to 45 m per stage
60 HZ
30 to 48 in.
15,000 to 50,000 GPM
up to 150 ft. per stage
Technology

Technology

 Xylem’s vertical turbine portfolio has served the market with a wide range of hydraulic conditions to meet many pumping needs with optimum efficiency using state-of-the-art techniques in turbine pump design.

View Performance Curves