Overview: The document provides a detailed description of ultra-high pressure intensifier pumps used in waterjet cleaning and cutting systems. These pumps are designed to convert low-pressure hydraulic fluid into ultra-high pressure water, offering reliable and efficient operation.
Specifications: The pumps can adjust output pressures from 5,000 to 55,000 psi and flow rates from 0 to 7.2 gallons per minute. They feature a pressure-compensated hydraulic system, electronically shifted intensifiers, and a 12:1 intensification ratio. The pumps are available in models with different configurations and power options, including diesel and electric.
Key Features: The pumps include in-line filtration down to 1 micron, a boost
pump for constant water flow, and a variable displacement hydraulic pump for efficient water flow production. The rugged steel framework and access panels facilitate easy maintenance. The system is equipped with a Cummins C-6 diesel engine, meeting all emission standards, and a NEMA 12 rated electrical cabinet for system controls and diagnostics.
Advantages: Intensifier pumps offer lower operational costs and reduced maintenance downtime compared to positive displacement pumps. They feature a self-lubricating seal design, eliminating the need for chemicals, and provide true shut-off capabilities without requiring a dump
valve.
Options and Accessories: The pumps can be customized with basic or advanced control packages, alternate power options, trailer packages, sound insulation, and CE marking. Accessories include lances, manifolds, and automated surface preparation units.
Performance Features: The document lists various models with specifications such as motor speed, horsepower, intensifier configuration, and flow rates. It also provides dimensions, weight, and electrical requirements for each model.
Conclusion: Jet Edge's ultra-high pressure pumps are designed for reliability and efficiency, with a focus on innovation and excellence. They are suitable for a wide range of industrial applications, offering flexibility in pressure and flow rate adjustments.