Restoration of natural ecosystems has now become one of the main tasks requiring urgent search for effective solutions. Due to the serious negative impact of mass pollution on the environment, it is important to actively participate in the restoration of this environment. The most promising option for recycling drilling mud is the synthesis of effective materials such as wedging agents, slamolites and keramstenes. In addition, the use of drilling mud as raw materials will reduce the industry's need for natural raw materials. The article describes the physico-chemical studies of drilling waste and their possibility of use for the synthesis of effective aluminosilicate materials.
Elena A. Yatsenko – Doctor of Technical Sciences, head of Department “General Chemistry and Technology of Silicates”, Platov South-Russian State Polytechnic University (NPI), Novocherkassk, Russia
Victoria A. Smoliy – Candidate of Technical Sciences, Associate Professor of the Department of General Chemistry and Technology of Silicates, Platov South-Russian State Polytechnic University (NPI), Novocherkassk, Russia
Dmitry A. Golovko – postgraduate student of the Department of General Chemistry and Technology of Silicates, Platov South-Russian State Polytechnic University (NPI), Novocherkassk, Russia
Lyudmila V. Klimova – Candidate of Technical Sciences, Associate Professor of the Department of General Chemistry and Technology of Silicates, Platov South-Russian State Polytechnic University (NPI), Novocherkassk, Russia
1. Montgomery D. B., Smith R. C. Proppant and frac fluid technology for unconventional oil and gas reservoirs. Society of petroleum engineers // Oil and Gas Facilities. 2014. V. 3. Р. 18 – 24.
2. Wylie D. C., Wang H. The role of proppants in hydraulic fracturing // Journal of Natural Gas Science and Engineering. 2018. V. 57. Р. 276 – 287.
3. King G. E. The Need for enhanced proppant performance in shale gas development // SPE Annual Technical Conference and Exhibition. Florence, 19 – 22 September 2010.
4. Osborn S. G., Tiwari M. Evaluating the effects of proppant type on fracture conductivity: A case study of the Barnett shale // International Journal of Coal Geology. 2019. No. 210. P. 105 – 115.
5. Zoback M. D., Effective R. Reservoir geomechanics and the role of proppants in hydraulic fracturing // Journal of Petroleum Science and Engineering. 2010. No. 71(3–4). P. 212 – 220.
6. Sharifzadeh M., Motaghian M. Proppant selection and optimization for hydraulic fracturing in tight gas reservoirs // Journal of Energy Resources Technology. 2016. V. 138(3).
7. Yoon S. J., Ryu H. Evaluating fracture propagation with different proppants: An experimental and numerical approach // Journal of Petroleum Science and Engineering. 2020. V. 188.
8. Яценко Е. А., Смолий В. А., Головко Д. А., Яценко Н. Д. Синтез эффективных силикатных материалов на основе отходов энергетической промышленности // Стекло и керамика. 2024. Т. 97, № 6. С. 36 – 41. DOI: 10.14489/glc.2024.06.pp.036-041[Yatsenko E. A., Smoliy V. A., Golovko D. A., Yatsenko N. D. Synthesis of effective silicate materials based on waste from the energy industry // Glass Ceram. 2024. V. 81. Р. 248 – 251.]
The article can be purchased
electronic!
PDF format
700 руб
DOI: 10.14489/glc.2025.08.pp.045-050
Article type:
Research Article
Make a request
