Technology and Products

MULTIPHASE SAMPLERS

Typhoon multiphase samplers reduce sources of errors associated with turbulence during filling, free gas flotation during container filling and dissolved gas flotation during container filling or pressure release.

MULTIPHASE SAMPLING TECHNOLOGY

Typhoon multiphase samplers reduce sources of errors associated with turbulence during filling, free gas flotation during container filling and dissolved gas flotation during container filling or pressure release. The samplers can be used to collect multiphase samples for analysis on especially the liquid phases, but also on the gas phase if required.

They can be used in process optimization studies of any kind, for example testing of old or new equipment, or when the effect of production chemicals is to be studied. The samplers are portable, easy to operate and provide large sample volumes. In contrast to the commonly used sampling solutions of today, the new samplers and methods enables the collection of representative liquid samples at any gas/liquid ratios.

Applications:

  • Process optimization studies
  • Separation efficiency studies
  • Oil and Water quality assessments
  • Assessment of efficiency of production chemicals
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For more information/quote contact:

trygve husveg%5b2%5d
Technology Manager

TRYGVE HUSVEG (PHD)

Mobile: +47 92685626
trygve.husveg@typhonix.com
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Learn more about low shear

In this section you will find some more information on different aspects of low shear. The main philosophy of low shear production is to instead of challenging the effects focus on the causes to separation problems.
Labnew

Typhonix TEST CENTER

The Typhonix Test Center provides the industry opportunity of live testing of process equipment under realistic conditions. Ever since establishment of Typhonix in 2006 flow loop testing has been of vital importance for development of our technologies.

Mature field lifetime extension

IOR and better opportunities for tiebacks through higher production capacity and treatment efficiency

Reducing size, weight and footprint

20 – 40% reduced size and footprint of greenfield process plants by increased separation efficiency

Enabling higher well production rates

Immediately improved separation and PW handling capacity with no additional equipment

Reducing environmental impact

Reduced emissions to the environment and less consumption of chemicals