Deaeration Systems For Beverages

DEAERATION SYSTEMS

Deaeration system for beverage

Deaeration of water is essential to producing quality beverages. It eliminates foam at filler discharge, makes for uniform and efficient carbonation, produces better taste and a longer product shelf life, and stops can corrosion and leakage.

DE-OX® OFFERS FAST, EFFECTIVE DEAERATION

Deaeration of water is essential to producing quality beverages. It eliminates foam at filler discharge, makes for uniform and efficient carbonation, produces better taste and a longer product shelf life, and stops can corrosion and leakage.

As it has with so many other innovations in the beverage industry, Mojonnier developed the modern deaerator. Patented in 1979, the De-Ox® system deoxygenates water to levels where it can be used to make soft drinks or beer. Unlike previous apparatuses, the De-Ox comes in modular form for quick and easy final construction on premises.

The De-Ox system offers efficient, effective deaeration with maximum uniformity and easy controls. It offers a single column configuration for enhanced warm fill deaeration and dual column configuration for optimum performance.

Complete Deaeration Systems for Beverage

GasTran Systems designs and manufactures complete systems to deliver deaerated water for up to three different bottling lines simultaneously.  Standard designs are capable of handling flow rates up to 400 gpm.

All systems come standard with the following features:

  • Sanitary design in stainless steel
  • PLC Control with remote troubleshooting capabilities
  • Touchscreen HMI
  • Dissolved oxygen monitor
  • Start-to-finish project management
  • Installation and training

Three different deaeration system configurations are available:

  1. Vacuum only
  2. Nitrogen only
  3. Nitrogen/Vacuum combination

Degasification/Deaeration Applications

What Makes GasTran Technology Different?

GasTran Technology offers several core advantages versus traditional approaches to degasification, liquid/liquid combination, and gas/liquid mass transfer processes.

  • Generates more liquid surface area via nano-sized droplets
  • Compact equipment size makes it ideal for:
    • Vacuum applications
    • Applications requiring high-cost materials for construction
    • Improved maintenance and safety
    • Quick process start-up
  • Short residence time makes it ideal for:
    • Pressure sensitive materials
    • Temperature sensitive materials
    • Very quick reactions
  • Easy fluid handling makes it ideal for:
    • Degasification of viscous fluids
    • Degasification at high temperatures
    • Degasification at high pressures
    • Degasification of acidic or basic fluids
  • Insensitivity to orientation makes it ideal for use on:
    • Floating platforms
    • Ships