SU684129A1 - Plugging solution - Google Patents

Description

(54) MIXING SOLUTION

The invention relates to the production of cement slurries with low water loss and can be used when attaching wells in the oil and gas industry and mining. Known cement slurry based on cement, water loss reducer (sulfite-alcohol stillage PRS), soap stock and water additives 1. However, this solution has a long setting time and low strength. The cement slurry containing portland cement, water loss reducer is closest to the proposed one. , antifoam and water 2. However, this solution is extremely scarce and very expensive. The purpose of the invention is to obtain there a low-yield water solution with increased stone strength. The goal is achieved by using furfuryl alcohol as a defoaming agent in the following ratio, wt.%: Portland cement 66.67-76.90 Water loss reducer — for example, brand methylcellulose MMC-BTR 0.10-0.20 Antifoamfuryl alcohol antifoam0.10-0.20 WaterOther Furfuryl alcohol having a low dielectric constant, dissolved in water, reduces its surface tension. This reduces the strength of the foam formed in the presence of a water loss reducer, the surfactant methylcellulose. Foam bubbles in the presence of furfuryl alcohol burst quickly. The cement slurry does not contain air bubbles, thereby maintaining the required density of the solution and the strength of the stone. FuRfuryl alcohol is introduced into the mixing water before dissolving in it methyldelulose MMC-BTR, manufactured according to TU 39-08-04774. 3684129 Example: 00 g of water and 1 g of furfuryl alcohol are poured into a metal beaker with a paddle stirrer. To mix the alcohol in water, the mixture is stirred for 5 minutes. After that, 1 g of dry methylcellulose brand MMC-BTR is applied. The mixture was stirred for two hours to dissolve the cellulose ether, then 231.3 g of water was poured into the same beaker. 660.7 g of port-Southland cement are shut on the prepared solution. The resulting cement slurry is examined to determine its density, water loss, setting time and strength of the cement stone formed. In 15 Examples 2 and 3, the percentage composition of the components changes in the same order of their introduction into the solution.

i0, 5 666,7

3.4 1812 18.50, 17

666, 7

3.4 1820 21

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17 1) Parameters were measured at 20 C. 2) Values in column 3 are given in terms of dry matter. PRI mme R 2. Komment ratio, g: Portland cement 666.7 Methylcellulose brand MMC-BTR 1.5 Furfuryl alcohol 1 , 5 water330.3 Example 3. Ratio of comets, g: Portland cement 769.0 Methylcellulose brand MMC-BTR.2.0 Furfuryl Quality indicators of tampon solutions of known and predisposed compositions, as well as obtained from them cement stone in the table.

Comparison of these data shows that the chemical composition of the proposed composition in terms of water loss, density and spreadability is equivalent to the known composition, and in bending strength is somewhat superior to the latter.

The use of the proposed composition with the use of furfuryl alcohol, which is much more affordable than polymethylsiloxanes, expands the range of high-quality tamponic solutions with low water loss with increased strength of cement stone.

Claims (2)

1.Danyushevsky c. S. et al. Reference guide on cementing materials. M., Nedra, 1973, p. 147. 2. VNIIkrneft Scientific and Technical Report on the problem H02.0iOSJD6. , Krasnodar, 1977, p. 50-54. 0