Wettability of sedimentary rock surface is an essential parameter that defines oil recovery and production rates of a reservoir. The discovery of wettability alteration in reservoirs, as well as complications that occur in analysis of heterogeneous sample, such as shale, for instance, have prompted scientists to look for the methods of wettability assessment at nanoscale. At the same time, bulk techniques, which are commonly applied, such as USBM (United States Bureau of Mines) or Amott tests, are not sensitive enough in cases with mixed wettability of rocks as they provide average wettability values of a core plug. Atomic Force Microscopy (AFM) has been identified as one of the methods that allow for measurement of adhesion forces between ...
It has been well documented that Darcy scale multiphase flow is significantly influenced by the wett...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
The adhesion force between an atomic force microscope (AFM) tip and sample surfaces, mica and quartz...
Wettability of sedimentary rock surface is an essential parameter that defines oil recovery and prod...
Wettability, as a vital tool for analyzing and describing oil flow, plays a significant role in dete...
Master's thesis in Petroleum Geosciences EngineeringA highly attractive strategy within the hydrocar...
Fundamental understanding of the wettability of carbonate formations can potentially be applied to t...
Low salinity waterflooding is a low-cost method of enhancing oil recovery although, no consistent co...
In oil/brine/rock systems, oil recovery is influenced by the wetting preference of the rock surface,...
Hypothesis: Roughness is an important parameter in applications where wetting needs to be characteri...
The rapid and cost-effective quantitative characterization of broad-sense shale oil reservoirs is hi...
Laboratory core flood experiments performed to establish chemical enhanced oil recovery (cEOR) proce...
Acknowledgements This research was funded by the National Natural Science Fund (grant nos. 41830427,...
Wettability is a key factor influencing multiphase flow in porous media. In addition to the average ...
The main hypothesis of this work is that silicon dioxide nanofluids can reduce the work of adhesion ...
It has been well documented that Darcy scale multiphase flow is significantly influenced by the wett...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
The adhesion force between an atomic force microscope (AFM) tip and sample surfaces, mica and quartz...
Wettability of sedimentary rock surface is an essential parameter that defines oil recovery and prod...
Wettability, as a vital tool for analyzing and describing oil flow, plays a significant role in dete...
Master's thesis in Petroleum Geosciences EngineeringA highly attractive strategy within the hydrocar...
Fundamental understanding of the wettability of carbonate formations can potentially be applied to t...
Low salinity waterflooding is a low-cost method of enhancing oil recovery although, no consistent co...
In oil/brine/rock systems, oil recovery is influenced by the wetting preference of the rock surface,...
Hypothesis: Roughness is an important parameter in applications where wetting needs to be characteri...
The rapid and cost-effective quantitative characterization of broad-sense shale oil reservoirs is hi...
Laboratory core flood experiments performed to establish chemical enhanced oil recovery (cEOR) proce...
Acknowledgements This research was funded by the National Natural Science Fund (grant nos. 41830427,...
Wettability is a key factor influencing multiphase flow in porous media. In addition to the average ...
The main hypothesis of this work is that silicon dioxide nanofluids can reduce the work of adhesion ...
It has been well documented that Darcy scale multiphase flow is significantly influenced by the wett...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
The adhesion force between an atomic force microscope (AFM) tip and sample surfaces, mica and quartz...