brOWSER: 2D Materials for Efficient Industrial Oil and Water Separation.

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Title
brOWSER: 2D Materials for Efficient Industrial Oil and Water Separation.

CoPED ID
0385b879-d26a-442d-9939-532f6808bc20

Status
Closed


Value
£315,902

Start Date
June 30, 2019

End Date
March 30, 2021

Description

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This project enables the development of a simple, rapid, inexpensive and scalable method to fabricate a nano-coated metallic mesh capable of the efficient separation of oil and water emulsions, typically found in the oil and gas industry and resulting from oil extraction techniques. The innovation works on the same principle as fish scales with the combination of relatively large and small holes (micro and nano-sized porosity) which together create a surface that likes water and intensely dislikes oil. This relationship allows water to easily pass through the membrane while leaving the oil behind, separated from the mixture. Current technology either relies on the use of additional chemistry to separate oil and water mixtures, creating secondary effluent streams. Alternatively electrically powered filtration systems are employed which are expensive and energy demanding and rapidly become blocked by the oil content. These pressurised systems often rupture making the current process of separation cumbersome and unproductive and potentially polluting.

TRL9 Limited LEAD_ORG
Loughborough University PARTICIPANT_ORG
TRL9 Limited PARTICIPANT_ORG
Broomhaugh Management Limited PARTICIPANT_ORG

Subjects by relevance
  1. Oil
  2. Water
  3. Separation methods
  4. Porosity
  5. Chemistry
  6. Filtration
  7. Emulsions
  8. Petrochemical industry

Extracted key phrases
  1. Efficient Industrial Oil
  2. Water Separation
  3. 2D material
  4. Oil extraction technique
  5. Oil content
  6. BrOWSER
  7. Water mixture
  8. Water emulsion
  9. Metallic mesh capable
  10. Efficient separation
  11. Separation cumbersome
  12. Current process
  13. Current technology
  14. Project
  15. Secondary effluent stream

Related Pages

UKRI project entry

UK Project Locations