![]() Pašić B (2012) The pellets application in laboratory researching of inhibitive mud/shale interaction. In: International conference on offshore mechanics and arctic engineering, 2017, V008T11A005. Pašić B, Gaurina-Međimurec N, Mijić P, Barudžija U Application of Outcrops Rock Samples in Laboratory Research of Shale Drilling Fluid Interaction. Mijić P, Gaurina-Međimurec N, Pašić B, Medved I The influence of TiO In: SPE international symposium and exhibition on formation damage control Kalantariasl A, Zeinijahromi A, Bedrikovetsky P (2014) External filter cake buildup in dynamic filtration: mechanisms and key factors. Jones T, Hughes T (1996) Drilling fluid specifications. Ilyas SU, Pendyala R, Marneni N (2014) Preparation, sedimentation, and agglomeration of nanofluids. In: SPE international oilfield nanotechnology conference and exhibition Hoelscher KP, De Stefano G, Riley M, Young S (2012) Application of nanotechnology in drilling fluids. SN Appl Sci 1:1–8ĭong X, Sun J, Huang X, Lv K, Zhou Z, Gao C (2022) Nano-laponite/polymer composite as filtration reducer on water-based drilling fluid and mechanism study. SPE Drill Complet 27:103–112ĭehghani F, Kalantariasl A, Saboori R, Sabbaghi S, Peyvandi K (2019) Performance of carbonate calcium nanoparticles as filtration loss control agent of water-based drilling fluid. New generation nano technology drilling fluids application associated to geomechanic best practices: Field trial record in Bahia-Brazil, in Offshore technology conference, 2018.Ĭai J, Chenevert ME, Sharma MM, Friedheim J (2012) Decreasing water invasion into Atoka shale using nonmodified silica nanoparticles. Langmuir 10:1544–1549īarroso A, Marcelino C, Leal A, Odum D, Lucena C, Masculo M et al. ![]() ![]() In: SPE Saudi Arabia section technical symposiumīailey L, Keall M, Audibert A, Lecourtier J (1994) Effect of clay/polymer interactions on shale stabilization during drilling. Accessed August 29, 2023.Īmanullah M, Al-Tahini AM (2009) Nano-technology-its significance in smart fluid development for oil and gas field application. Oil and gas production can be greatly improved with soluble Nanocomposite due to their better filtration properties, which minimizes formation damage and fluid leak-off.Īli M, Jarni HH, Aftab A, Ismail AR, Saady NM, Sahito MF, Keshavarz A, Iglauer S, Sarmadivaleh M (2019) Nanomaterial-based drilling fluids for exploitation of unconventional reservoirs: a review. Novel Nanocomposite had an impressive effect on drilling fluid containing salts to reduce fluid loss. The Nanocomposite changed the rheological behavior of drilling fluid from Bingham to Power Law. ![]() The optimal concentration of the Nanocomposite (3 wt.%) resulted in a 40.7% reduction in fluid loss volume and a 51.4% reduction in filter cake thickness. ![]() Results show adding nanocomposite nanoparticles seriously changes filtration specifications and creates a plain cake surface. The water-based mud was treated with varying concentrations of Nanocomposite (0.5–3 wt.%). As base drilling fluid, water-based bentonite mud was utilized. This study uses compounds of some essential nanoparticles such as Al2O3, MgO, SiO2, and CaCO3 to gain a novel nanocomposite. The function of nanoparticles increases widely in the mud because of its positive effect on mud filtration and rheology characterizations. ![]()
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