Effective Treatment of Shale Oil and Gas Produced Water via an Integrated Treatment Train

Opportunity

Available for Licensing

IP Status

US Utility Patent Pending (Not Yet Published)

Inventors

Tiezheng Tong
Kenneth H Carlson
Zuoyou Zhang
Xuewei Du 

At A Glance

​Researchers at Colorado State University have developed an integrated treatment process composed of chemical coagulation, filtration, and membrane distillation (MD) in sequence, which can be used to treat shale oil and gas produced water efficiently.  The technology will enable a cost-effective, on-site, and off-grid waste water treatment system that improves the environmental and economical sustainability of shale oil and gas industry.

For more details please contact our office.

Licensing Director

Mandana Ashouri
Mandana.Ashouri@colostate.edu
970-491-7100

Reference No.: 19-013

Background

Shale oil and gas wastewater is extremely challenging to treat due to its high salinity, high organic matter content, and toxicity.  The salinity of shale oil and gas wastewater (up to 360,000 ppm) exceeds the desalination limit of reverse osmosis (salinity of 70,000 ppm), rendering this energy-efficient technology inappropriate for wastewater treatment.  Accordingly, energy intensive thermal technologies have to be employed, increasing the cost and resulting in most of the oilfield wastewater being disposed into injection wells.  Membrane Distillation (MD), however, is a promising technology particularly for shale oil and gas wastewater treatment, because of its capability of utilizing geothermal energy (typically contained in shale oil and gas wastewater) or waste heat from oilfield operations, tolerance to high salinity, and modular nature.  

Benefits
  • Improved fouling and scaling resistance
  • Reduces concentrations of particulate matter
  • Removes volatile toxic compounds – reducing toxicity and environmental risks of water product
  • Tolerance to high salinity
  • Self-sustained
Applications
  • Wastewater treatment for oil and gas industry

Last updated: June 2020

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