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Glass and Ceramics

Erschienen in:

31.03.2021

Basic Technological Features of Production and Performance Evaluation of Proppants Used in Oil and Gas Production by Hydraulic Fracturing

verfasst von: Yu. G. Pavlyukevich, P. S. Larionov

Erschienen in: Glass and Ceramics | Ausgabe 11-12/2021

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Abstract

The results of studies of the structure, phase composition, and mechanical and chemical properties of aluminosilicate, magnesia-quartz, and glass-ceramic proppants (RosProp, BorProp, ForeRCP, Wauli, etc.) are reported. It is shown that glass-ceramic proppants outperform ceramic analogs because a highly efficient method of dispersing a melt jet into droplets is used to spherize the particles and because of the structural features manifested in the formation of a homogeneous dense material represented by microcrystals with pyroxene composition.

Vorheriger Artikel Pyroxenite-Based Ceramic Pigment

Nächster Artikel X-Ray Generation during Piezoelectric Lighter Operation in Vacuum

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S. I. Ivanov, Intensification of Oil and Gas Inflow to Wells [in Russian], Nedra-Business Center LLC, Moscow (2006).

V. N. Arbuzov, Operation of Oil and Gas Wells, Part 1 [in Russian], Izd. Tomsk. Politekhn. Instituta, Tomsk (2011).

A. V. Mozhzherin and A. Yu. Korzhavin, “Ceramic proppant or sand?” Sfera, Neft’ Gas, No. 1, 22 – 25 (2018).

M. A. Silin, L. A. Magadova, L. I. Tolstykh, et al., Industrial Chemistry [in Russian], Izd. Tsentr GRU Nefti i Gaza (NIU) im. I. M. Gubkina, Moscow (2016).

T. V. Vakalova, V. M. Pogrebenkov, A. A. Reshetova, “Method of obtaining aluminosilicate proppant and its composition, Pat. 2392251 RF. No. 2009116527/03,” Byull. Izobr. Polezn. Modeli, No. 17 (2010), declared 04/24/2009, publ. 06/20/2010.

T. V. Vakalova, V. M. Pogrebenkov, et al. A. A. Reshetova, “Method of obtaining aluminosilicate proppant and composition for its production, Pat. 2389710 RF. No. 2009112899/03,” Byull. Izobr. Polezn. Modeli, No. 14 (2010), declared 04/06/2009, publ. 05/20/2010.

V. A. Mozhzherin, V. P. Migal, A. N. Novikov, et al., “Light proppant, Pat. 2472837 RF. No. 2010149325/03,” Byull. Izobr. Polezn. Modeli, No. 16 (2012), declared 02/12/2010, publ. 10/06/2012.

V. A. Plotnikov, E. V. Rozhkov, V. G. Peichev, et al., “Method of manufacturing lightweight magnesium silicate proppant and proppant, Pat. 2437913 RF. No. 2010122755/03,” Byull. Izobr. Polezn. Modeli, No. 36 (2011), declared 06/03/2010, publ. 12/27/2011.

V. G. Peichev, S. Yu. Pliner, S. F. Shmotiev, et al., “Method of manufacturing magnesium silicate proppant and proppant, Pat. 2476478 RF. No. 2011138571/03,” Byull. Izobr. Polezn. Modeli, No. 6 (2013), declared 09/21/2011, publ. 02/27/2013.

10.

V. A. Plotnikov, Yu. A. Pupyshev, and V. V. Kobzev, “Method of manufacturing magnesia quartz proppant, Pat. 2515280 RF. No. 2012131774/03,” Byull. Izobr. Polezn. Modeli, No. 3 (2014), declared 07/24/2012, publ. 05/10/2014.

11.

V. A. Plotnikov, V. G. Peichev, E. A. Pribytkov, et al. “Method of manufacturing magnesium silicate proppant and proppant, Pat. 2463329 RF. No. 2011118406/03,” Byull. Izobr. Polezn. Modeli, No. 28 (2012), declared 05/06/2011, publ. 10/10/2012.

12.

E. A. Pribytkov, S. Yu. Pliner, S. F. Shmotiev, et al., “Method for the manufacture of magnesium silicate proppants, Pat. 2342420 RF. No. 2007118308/03,” Byull. Izobr. Polezn. Modeli, No. 36 (2008), declared 05/16/2007, publ. 12/27/2008.

13.

V. G. Peichev and E. A. Pribytkov, “Method of manufacturing magnesium silicate proppant and proppant, Pat. 2395556 RF. No. 2008148376/03,” Byull. Izobr. Polezn. Modeli, No. 21 (2010), declared 08/12/2008, publ. 07/27/2010.

14.

V. G. Peichev, “Method of manufacturing composite magnesium silicate proppant and proppant, Pat. 2476477 RF. No. 2011137578/03,” Byull. Izobr. Polezn. Modeli, No. 6 (2013), declared 09/12/2011, publ. 02/27/2013.

15.

M. S. Polukhin, S. Yu. Pliner, S. F. Shmotiev, et al., “Composition of glass and a method of making proppants from it, Pat. 2433966 RF. No. 2010116799/03,” Byull. Izobr. Polezn. Modeli, No. 32 (2011), declared 04/27/2010, publ. 20/11/2011.

16.

S. F. Shmotiev and S. Yu. Pliner, “Method of proppant production from glass spheres, Pat. 2336293 RF. No. 2007135495/03,” Byull. Izobr. Polezn. Modeli, No. 29 (2008) declared 09/24/2007, publ. 20/10/2008.

17.

A. N. Novikov, “Proppant and method of its production, Pat. 2447126 RF. No. 2010109964/03,” Byull. Izobr. Polezn. Modeli, No. 27 (2012), declared 03/17/2010, publ. 10/04/2012.

18.

Yu. G. Pavlyukevich, A. P. Kravchuk, L. F. Papko, et al., “Obtaining glass-ceramic proppants based on petrurgic raw materials,” Steklo Keramika, No. 8, 9 – 13 (2019); Yu. G. Pavlyukevich, A. P. Kravchuk, L. F. Papko, et al., “Obtaining glass ceramic proppants based on petrurgic raw material,” Glass Ceram., 76(7–8), 286 – 289 (2019).

19.

K. B. Podbolotov, A. T. Volochko, and S. V. Gusarov,, “Investigation of the influence of different additives for sintering ceramic based on corundum micropowders,” in: Promising Materials and Technologies: Proceedings of International Symposium [in Russian], Vitebsk State Technological University, Vitebsk (2017), pp. 79 – 81.

20.

A. R. Andrievskii and I. I. Spivak, Strength of Refractory Compounds and Materials Based on Them [in Russian], Metallurgiya, Chelyabinsk (1989).

Titel: Basic Technological Features of Production and Performance Evaluation of Proppants Used in Oil and Gas Production by Hydraulic Fracturing
verfasst von: Yu. G. Pavlyukevich
P. S. Larionov
Publikationsdatum: 31.03.2021
Verlag: Springer US
Erschienen in: Glass and Ceramics / Ausgabe 11-12/2021
Print ISSN: 0361-7610
Elektronische ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-021-00333-9

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