Application of Ultrafine Weighting Materials in High-Density Oil-Based Drilling Fluid Technology

Yan Ye; Wen Hua An; Da Yin; Qing Wen Zhang; Lei Li; Ling Ling Ren

doi:10.4028/www.scientific.net/MSF.814.338

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HomeMaterials Science ForumMaterials Science Forum Vol. 814Application of Ultrafine Weighting Materials in...

Application of Ultrafine Weighting Materials in High-Density Oil-Based Drilling Fluid Technology

Abstract:

High-density oil-based drilling fluid already was considered as one of the most effective technologies during the HTHP Ultra-deep well drilling process. The weighting materials sag such as barite sag, however, always occurred because of the density contrast between the base oil and the weighting material, and hence sag can result in excessive torque, lost circulation and many other problems. This study applied three kinds of ultra-fine powder (particle size≤4μm), which are new weighting materials, to replace the common API barite (particle size10~70μm). The different kinds of high-density oil-based drilling fluids, which weighted with micronized barite, micronized ilmenite, manganese tetraoxide and API barite, were prepared and evaluated separately in lab. The performance data showed that compared with conventional weighting materials, the application of ultrafine powder technology could greatly optimize the rheology of high-density oil-based drilling fluids (ρ ≥ 2.3 g/cm³), reduce the amount of emulsifiers about 50% and dramatically enhance the dynamic suspension-stability of the system, Furthermore, OBM drilling fluids weighted with ultrafine weighting materials almost presented lower viscosity, shear force and sedimentation rate, which will meet more severe requirements of ultra-deep complex well drilling.

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Periodical:

Materials Science Forum (Volume 814)

Pages:

338-344

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.814.338

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Online since:

March 2015

Authors:

Yan Ye*, Wen Hua An, Da Yin, Qing Wen Zhang, Lei Li, Ling Ling Ren

Keywords:

Dynamic Suspension-Stability, Oil-Based Drilling Fluid, Rheology, Ultra-Deep Well, Ultrafine Weighting Materials

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