Abstract
In recent years, graphene-based nanomaterials have been increasingly and widely used in numerous industrial sectors. In the drilling industry, graphene oxide in cement slurry has significantly improved the mechanical parameters of cement composites and is a future-proof solution. However, prior to placing it in a borehole ring space, cement slurry must feature appropriate fluidity. Graphene oxide has a significant influence on rheological parameters. Therefore, it is necessary to study graphene oxide’s influence on the rheological parameters of cement slurries. Thus, this paper presents rheological models and the results of studies on rheological parameters. A basic cement slurry and a slurry with a latex addition were used. The latex admixture was applied at concentrations of 0.1%, 0.03%, and 0.06%. In total, studies were carried out for six slurries with graphene oxide and two basic slurries. The obtained results of studies on the slurries with graphene oxide were compared with the control slurry. It was found that the smallest graphene oxide concentration increased slurry value, some rheological parameter values, plastic viscosity, and the flow limit. Surprisingly, a concentration up to 0.03% was an acceptable value, since the increase in plastic viscosity was not excessively high, which allowed the use of cement slurry to seal the hole. Once this value was exceeded, the slurry caused problems at its injection to the borehole.
Highlights
New allotropic varieties of carbon, such as nanostructural varieties (i.e., fullerenes and carbon nanotubes (CNT)), are a breakthrough for many industrial sectors
Modifying cement slurries with the use of carbon nanotubes is ongoing in the oil sector
These are rolled-up graphene planes. Their structure features a closed surface because nanotubes are finished on one or both ends with semicircular caps [1,2,3,4,5]
Summary
New allotropic varieties of carbon, such as nanostructural varieties (i.e., fullerenes and carbon nanotubes (CNT)), are a breakthrough for many industrial sectors. Modifying cement slurries with the use of carbon nanotubes is ongoing in the oil sector. Their structure features a closed surface because nanotubes are finished on one or both ends with semicircular caps [1,2,3,4,5]. Carbon nanotubes feature a large specific surface, new and changed electron properties, and a high. Young’s modulus that reaches 2 TPa. Very strong bonds exist between carbon atoms, which substantially increase graphene strength. Very strong bonds exist between carbon atoms, which substantially increase graphene strength This contributes to very high values of the tensile strength (up to 50 GPa)
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