Innovative Solutions For Industrial Membranes

Your membrane application requires a unique solution to achieve best performance and cost-efficient operation. Based on your specific requirements such as temperature range, pressure, volumetric flow and degree of required separation, Applied Membrane Technology (AMT) supplies or develops the best membrane solution to meet your needs.

Applications

AMT’s innovative coatings are applied to a range of membranes to achieve high performance during gas, water and air filtrations and even liquid-to-liquid separations.

Rapid Development, Prototyping and Scale Up

AMT leverages its international research and development resources to identify or rapidly develop the best membrane technology for your specific needs. Lab samples or pilot runs for tailored membrane composites are available. AMT provides design, bench-scale prototyping and membrane module fabrication.

Large Scale Manufacturing

We at Applied Membrane Technology (AMT) offer cost-efficient large-scale production. A strict quality assurance program ensures consistent and high performance for AMT’s membranes. We have several module designs available to meet your specific needs.

Technology

AMT creates unique surface properties by using plasma polymerization technologies on its membranes. Learn more about AMT’s unique membranes.

Water Filtration

Applied Membrane Technology (AMT) offers advanced composite membranes tailored to your specific water filtration requirements.

Applications/Process

Micro-filtration with innovative anti-bacterial membranes for applications such as

  • Membrane distillation
  • Contaminated ground water
  • Pervaporation
  • Pesticides and herbicides removal
  • MTBE removal

Membrane Material/Construction

Specific application requirements determine the proper selection of suitable membrane materials.

Technology

AMT’s technologies optimize your processes by offering uniquely designed membranes adapted to your specific requirements.

Gas Filtration / Separation

Applied Membrane Technology (AMT) offers advanced composite membranes tailored to your specific gas filtration or separation requirements.

Applications/Process

  • Gas purification such as nanoparticulates and trace gases
  • Gas transfer such as oxygenation and degassing
  • Gas separations
    • Oxygen enrichment
    • VOCs such as xylene from nitrogen
    • CO2 from gas such as natural or biogas
    • Others
  • Gas generation/conversion, such as fuel cell, feed gases and molecules

Membrane Material/Construction

Specific application requirements determine the proper selection of a suitable membrane material.

Technology

AMT’s technologies optimize your processes by offering uniquely designed membranes adapted to your specific requirements.

Air Filtration

Applied Membrane Technology (AMT) offers advanced composite membranes tailored to your air filtration or separation requirements.

Applications/Process

AIR PURIFICATION such as

  • mold
  • bacteria including anthrax
  • viruses

AIR PURITY such as

  • copiers
  • getters
  • trace VOC contamination

AIR SEPARATIONS such as

  • Oxygen enrichment for combustion
  • CO2 removal life support

Membrane Material/Construction

Specific application requirements determine the proper selection of a suitable membrane material.

Technology

AMT’s technologies optimize your processes by offering uniquely designed membranes adapted to your specific requirements.

Liquid / Liquid Separation

Applied Membrane Technology (AMT) offers advanced composite membranes for Liquid/Liquid separations in both aqueous and organic fluid environments.

Applications/Process

Permeation of solute(s) from a liquid across a membrane interface into an absorbent liquid may be accomplished by a number of membrane techniques:

  • PERTRACTION: Removal of organic pollutants from waste water using non-dispersive extraction
  • SOLVENT EXTRACTION: Use of immobilized porous interface for dispersion-free extraction
  • SUPPORTED LIQUID MEMBRANE: Stabilized organic phase supported by microporous composite membrane interface (extracting metal ions or solutes)
  • MEMBRANE DISTILLATION: Extraction of solutes into aqueous based solution (a porous vapor gap allows passage of volatile components)

Membrane Material/Construction

Proper selection of suitable membrane materials is determined by the process requirements and the solute/liquid composition involved in your application.

Technology

Advantages of AMT’s technology are enhanced chemical, thermal, and long-term stability due to coated composite membrane structures based upon robust materials.

SilGlide®

SilGlide® coatings are extremely lubricious, submicron in thickness, chemically resistant, and biocompatible.

Carbond®

Carbond® coatings are chemically resistant, water wettable, of atomic dimension, and retain substrate morphology and strength.

Fluorocarb®

Fluorocarb® coatings are ultrathin, chemically resistant, highly hydrophobic, and biocompatible.

If you have questions or need more information