Formation Damage and Enhanced Oil-Gas Recovery

Our Formation Damage and Enhanced Oil-Gas Recovery research examines various forms of modelling to control and enhance the flow, migration and recovery of hydrocarbon resources.

formation damage and enhanced oil-gas recovery

Our Formation Damage and Enhanced Oil-Gas Recovery research group is particularly focused on modelling:

  • advanced oilfield waterflood techniques
  • low-salinity waterflooding in carbonate reservoirs
  • chemical enhanced oil recovery
  • CO2 geo-sequestration in aquifers and oilfields
  • well stimulation in coal-bed methane fields
  • shale-gas field development
  • water-production control in gas and oilfields
  • drilling fluid design
  • suspension-colloidal-nano transport in porous media
  • exact and asymptotic solutions for flow in porous media
  • nano technologies in oil and gas production
  • well injectivity and productivity
  • formation damage and skin
  • oil and gas secondary migration.

Our work is of value and relevance to organisations throughout the resources sector, together with those involved in industrial waste disposal, vadose zone engineering, and plant irradiation.

Research impact

Our Formation Damage and Enhanced Oil-Gas Recovery researchers are working to develop advanced methods and technologies for:

  • enhanced oil recovery in fields of the Cooper and Perth basins (Australia), Campos and Santos basins (Brazil), and Gulf of Mexico (US)
  • well stimulation in coal-seam gas fields
  • enhanced energy recovery in geothermal fields
  • behavior prediction in oil and gas fields
  • lab-based aquifer contamination modelling
  • optimal drilling fluid particle sizing
  • optimal oil and gas exploration planning.

Our findings frequently lead to real-world commercial benefits and application. For example, our:

  • method of determining gas-inflow profiles is used by Beach Energy and Santos in shale gas and coal-seam gas fields
  • analytical models for low-salinity waterflooding are used by Wintershall (Germany) to plan and design enhanced oil recovery projects
  • lab-based fines migration prediction method is used by Chevron for well management in the Gulf of Mexico
  • three-point-pressure method for formation damage assessment is used by Petrobras in their production headquarters, and their Cenpes research centre.

Our researchers

We have expertise across a wide range of areas. Many of our researchers are available to assist with research project supervision for Master of Philosophy and Doctor of Philosophy students.

Research team Expertise
Professor Pavel Bedrikovetski Enhanced oil and gas recovery; Transport and thermodynamics in porous media; Two-phase multi-component flows of nanofluids, suspensions and colloids
Dr Abbas Zeinijahromi Formation damage; Fines migration; Low salinity waterflooding
Dr Themis Carageorgos Oilfield scaling; Suspension-colloidal-nano transport in porous media; Laboratory studies on oil recovery visualisation
Dr Alex Badalyan Suspension flow in porous media; Characterisation of porous solids; Thermophysical fluid properties


We collaborate with various industry and government organisations, including:

Contact us

To enquire about consulting or working with us on a research project, please contact:

Higher degrees by research

Whether you intend to work in research or industry, a higher degree by research can give you a competitive edge throughout your career. Find out more about studying a Master of Philosophy or Doctor of Philosophy.

Higher Degrees by Research