Impact of Temperature on the Rheological Properties with Shear Stress limit of Iron Oxide Nanoparticle Modified Drilling Fluid of Dibella, Oil Field
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Abstract
In eastern Niger, a very complex rift system, whose sediment superfluity varies in age from Upper Jurassic to Lower Tertiary, has real and sure petroleum potential. Basin rocks are essentially Cretaceous to Eocene sandstones, arising from Cretaceous marine shales and Oligocene lacustrine shale; The Paleogene lacustrine mudstone is one of the most important sets of source rocks in the Termit Basin. The Agadem Oil Field in Niger holds distinct types of reservoirs and several sets of oil layers. There are large differences in the physical properties of the reservoir, the pressure system, and the fluid properties in the different layers, and the contradiction of inter-layer interference is large, which requires layered production. Micro and nanotechnologies have already made a particular contribution to technological progress in several industries, including electronics, biomedical, pharmaceutical, materials and manufacturing, aerospace, photography, and most recently energy. Micro and nanotechnologies have the potential to introduce agitating mutations in various uses of the oil and gas industries such as exploration, drilling, production, refining, and distribution. nanosensors could provide more precise and concise information on smart reservoirs and fluids for enhanced oil recovery and drilling. These experiments carried out in the laboratory aim to the influence of iron oxide nanoparticles and shear rates on the shear stress of the drilling fluid. We find that the plastic viscosity (PV), threshold (YP) and freeze resistance of the water-based mud-water system (WBM) lessen with increasing temperature until failure. of the mud system. It is therefore mandatory to continue our work to stabilize the failures of the sludge system using nanoparticles. In this study, six water-based sludge samples were prepared at different concentrations (0.5 g, 1 g, 1.5 g, 2 g, 2.5 g, 3 g) of iron oxide Fe 2 O 3 , the results showed that a diligent rheological property was completed with an optimal nanoparticle concentration of 2.5 g of iron oxide at temperatures of 300OF and a pressure of 10.00 psi, we achieved diligent rheological characteristics by 14.78%, 9.57%, 14.78% and 16.59% reduction in the strength of freezing PV, YP, 10 seconds and 10 minutes.
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License: CC-BY-4.0