Ultrafine high-density well-drilling/completing working fluid for protecting ultra-deep tight sandstone gas reservoirs and preparation method thereof
A tight sandstone gas reservoir, high-density technology, applied in the direction of chemical instruments and methods, drilling compositions, etc., can solve the problems of tight sandstone gas reservoirs such as reduced effective permeability, difficult filtration loss control, and high solid content. Achieve the effect of improving suspension stability and thermal stability, overcoming coalescence tendency, and good performance
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example 1
[0022] This embodiment provides a density of 1.85g / cm 3 Ultrafine high-density drilling and completion working fluid, which is prepared by the following steps:
[0023] Put 300 parts by weight of tap water in a beaker, add 455 parts by weight of API barite powder and 12 parts by weight of dispersant, stir the three fully and pour them into a grinder to grind until the particle size distribution of the mixed liquid is about 1-3 Micron, D90 about 4-8 micron.
[0024] Add 21 parts by weight of potassium formate, 6 parts by weight of nitrile silicon fluid loss reducer, and 4 parts by weight of terpolymer fluid loss reducer in the above-mentioned base slurry in order (the effect of mixing the two kinds of fluid loss reducers will be better, there is synergistic effect), 0.3 parts by weight of xanthan gum, 16 parts by weight of sulfonated pitch, 0.8 parts by weight of micro silicon, 12 parts by weight of ultrafine CaCO 3 , at a stirring speed of 12,000 rpm for 30 minutes to obtain...
example 2
[0026] This embodiment provides a density of 2.0g / cm 3 The ultra-fine high-density drilling and completion working fluid, which is prepared by the following steps:
[0027] Put 300 parts by weight of tap water in a beaker, add 600 parts by weight of API barite powder and 17.5 parts by weight of dispersant, stir the three fully and pour them into a grinder to grind until the particle size distribution of the mixed liquid is about 1-3 microns in D50 and about 1-3 microns in D90 About 4-8 microns.
[0028] Add 21 parts by weight of potassium formate, 4.5 parts by weight of nitrile silicon fluid loss reducer, and 4 parts by weight of terpolymer fluid loss reducer in the above-mentioned base slurry in order (the effect of mixing the two kinds of fluid loss reducers will be better, there is synergistic effect), 16 parts by weight of sulfonated pitch, 2.0 parts by weight of micro silicon, 12 parts by weight of ultrafine CaCO 3 , at a stirring speed of 12,000 rpm for 30 minutes to o...
example 3
[0030] This embodiment provides a density of 2.3g / cm 3 The ultra-fine high-density drilling and completion working fluid, which is prepared by the following steps:
[0031] Put 300 parts by weight of tap water in a beaker, add 860 parts by weight of API barite powder and 26 parts by weight of dispersant, stir the three fully and pour them into a grinder to grind until the particle size distribution of the mixed liquid is about 1-3 microns in D50 and about 1-3 microns in D90 About 4-8 microns.
[0032] Add 21 parts by weight of potassium formate, 6 parts by weight of nitrile silicon fluid loss reducer, and 4 parts by weight of terpolymer fluid loss reducer in the above-mentioned base slurry in order (the effect of mixing the two kinds of fluid loss reducers will be better, there is synergistic effect), 12 parts by weight of sulfonated pitch, 1.2 parts by weight of micro silicon, 12 parts by weight of ultrafine CaCO 3 , at a stirring speed of 12,000 rpm for 30 minutes to obtai...
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