Add to ORKGtextFoams have been used successfully in the industry for both drilling and fracturing. These foams usually consist of both an aqueous liquid phase and a gas phase; air, nitrogen, and/or CO2 are the most common. Due to the aqueous liquid component in the foam, drilling and fracturing in shale formations can cause swelling and collapsing of the rock through formation invasion. Sensoy et al.(2009) has shown that the addition of nanoparticle dispersions to water based fluids reduces the amount of water invading the shale and has been used as a kickoff point for this research. Results presented in this thesis show that the addition of nanoparticles to foams enhances the performance of these fluids by reducing their invasion into shale. The...
Foamed fluids have been used for decades to diminish formation damage in nearly all kinds of reservo...
abstract: The foam generated by the mixture of air and water has a much higher viscosity and lower m...
This thesis is a part of an ongoing study of CO2 foam mobility control in the Reservoir Physics grou...
textFoams have been used successfully in the industry for both drilling and fracturing. These foams...
Hydraulic fracturing is a well-known stimulation technique for creating fractures in a subsurface fo...
This paper presents the experimental investigation of the effects of size and concentration of nanop...
Drilling fluid design for unconventional reservoirs aims at preventing formation instability problem...
Hydraulic fracturing is one of the most effective and efficient methods to enhance oil and gas recov...
The past decade has seen increased focus on nanoparticle (NP) based drilling fluid to promote wellbo...
AbstractNanoparticles have been widely used to reduce wellbore instability problems of shale formati...
This experimental study presents the effect of adding nanoparticles to water-based drilling muds and...
Foams and emulsions hold immense potential in assisting in the different stages of oil recovery proc...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
Wellbore stability in shale formation has long been a significant issue in petroleum drilling indust...
Foamed fluids have been used for decades to diminish formation damage in nearly all kinds of reservo...
abstract: The foam generated by the mixture of air and water has a much higher viscosity and lower m...
This thesis is a part of an ongoing study of CO2 foam mobility control in the Reservoir Physics grou...
textFoams have been used successfully in the industry for both drilling and fracturing. These foams...
Hydraulic fracturing is a well-known stimulation technique for creating fractures in a subsurface fo...
This paper presents the experimental investigation of the effects of size and concentration of nanop...
Drilling fluid design for unconventional reservoirs aims at preventing formation instability problem...
Hydraulic fracturing is one of the most effective and efficient methods to enhance oil and gas recov...
The past decade has seen increased focus on nanoparticle (NP) based drilling fluid to promote wellbo...
AbstractNanoparticles have been widely used to reduce wellbore instability problems of shale formati...
This experimental study presents the effect of adding nanoparticles to water-based drilling muds and...
Foams and emulsions hold immense potential in assisting in the different stages of oil recovery proc...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
Wellbore stability in shale formation has long been a significant issue in petroleum drilling indust...
Foamed fluids have been used for decades to diminish formation damage in nearly all kinds of reservo...
abstract: The foam generated by the mixture of air and water has a much higher viscosity and lower m...
This thesis is a part of an ongoing study of CO2 foam mobility control in the Reservoir Physics grou...