10 январ 2026
2TOLALI, ISSIQLIK O‘TKAZMAYDIGAN, FILTRLOVCHI MATERIALLAR VA TEXNIK MAHSULOTLAR ISHLAB CHIQARISH TEXNOLOGIYASINI ISHLAB CHIQISH
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[9] Drobot, N. F., Noskova, O. A., & Steblevskii, A. V. (2013). Use of chemical and metallurgical methods for processing of gabbro–basalt raw material. Theoretical Foundations of Chemical Engineering, 47(4), 484–488.
[10] Gibadullin, A., & Pulyaeva, V. (2019). E3S Web of Conferences, 114, 02002.
[11] Morkovkin, D., Hutarava, I., Ogloblina, E., Gibadullin, A., & Kharchenko, S. (2020). E3S Web of Conferences, 176, 05002.
[12] Morkovkin, D. E., Lopatkin, D. S., Shushunova, T. N., Sharipov, B. K., & Gibadullin, A. A. (2020). Journal of Physics: Conference Series, 1515(3), 032002.
[13] Panchenko, A., Voloshina, A., Sadullozoda, S. S., Boltyansky, O., & Panina, V. (2022). Lecture Notes in Mechanical Engineering, 101–111.
[14] Ermakova, A. M. (2022). IOP Conference Series: Earth and Environmental Science, 1045, 012123.
[15] Kovshov, V. A., Zalilova, Z. A., Lukyanova, M. T., & Sagadeeva, E. F. (2021). Lecture Notes in Networks and Systems, 205, 595–603.
[8] Sattarov, L. Kh., & Kurbanov, A. A. (2017). The flexural stiffness and tension state of basalt filter. RMZ – Materials and Geoenvironment, 64, 53–62.
[1] Khuzhayorov, B. Kh. (2012). Filtration of inhomogeneous liquids in porous media. Tashkent: Fan.
[2] Kurbanov, A. A., Sattorov, L. Kh., & Rakhmonov, Zh. Kh. (2009). Calculation of the deflection of filters made of basalt fiber. Certificate of Official Review of the Program for Electronic Calculators, No. DGU 01891.
[3] Sattorov, L. Kh., Kurbanov, A. A., & Rakhmonov, Zh. Kh. (2015). Processes of filtration of industrial gases from dust through basalt filters. Bulletin of the Tula State University: Automation: Problems, Ideas, Solutions, APIR-20, 205–210.
[4] Kurbanov, A. A., Normurodov, U. S., & Sattorov, L. Kh. (2013). New in the processing of basalts in Uzbekistan. Bulletin of the Tula State University: Automation: Problems, Ideas, Solutions, APIR-18, 127–130.
[5] Kurbanov, A. A. (2010). Thermodynamics of deformation of basalt during melting. Mountain Bulletin of Uzbekistan, 1, 115–117.
[6] Sattorov, L. Kh., & Kurbonov, A. A. (2015). About the advantages of basalt filter materials. In International Scientific and Technical Conference “Mining and Metallurgical Complex: Achievements, Problems and Development Trends” (p. 134). Navoi.
[7] Kurbanov, A. A., Sattorov, L. Kh., & Turobov, Sh. (2017). Conditions for testing a basalt filter in laboratory and industrial conditions. Mountain Bulletin of Uzbekistan, 2, 1.
[1] Khuzhayorov, B. Kh. (2012). Filtration of inhomogeneous liquids in porous media. Tashkent: Fan.
[2] Kurbanov, A. A., Sattorov, L. Kh., & Rakhmonov, Zh. Kh. (2009). Calculation of the deflection of filters made of basalt fiber. Certificate of Official Review of the Program for Electronic Calculators, No. DGU 01891.
[3] Sattorov, L. Kh., Kurbanov, A. A., & Rakhmonov, Zh. Kh. (2015). Processes of filtration of industrial gases from dust through basalt filters. Bulletin of the Tula State University: Automation: Problems, Ideas, Solutions, APIR-20, 205–210.
[4] Kurbanov, A. A., Normurodov, U. S., & Sattorov, L. Kh. (2013). New in the processing of basalts in Uzbekistan. Bulletin of the Tula State University: Automation: Problems, Ideas, Solutions, APIR-18, 127–130.
[5] Kurbanov, A. A. (2010). Thermodynamics of deformation of basalt during melting. Mountain Bulletin of Uzbekistan, 1, 115–117.
[6] Sattorov, L. Kh., & Kurbonov, A. A. (2015). About the advantages of basalt filter materials. In International Scientific and Technical Conference “Mining and Metallurgical Complex: Achievements, Problems and Development Trends” (p. 134). Navoi.
[7] Kurbanov, A. A., Sattorov, L. Kh., & Turobov, Sh. (2017). Conditions for testing a basalt filter in laboratory and industrial conditions. Mountain Bulletin of Uzbekistan, 2, 1.
[8] Sattarov, L. Kh., & Kurbanov, A. A. (2017). The flexural stiffness and tension state of basalt filter. RMZ – Materials and Geoenvironment, 64, 53–62.
[9] Drobot, N. F., Noskova, O. A., & Steblevskii, A. V. (2013). Use of chemical and metallurgical methods for processing of gabbro–basalt raw material. Theoretical Foundations of Chemical Engineering, 47(4), 484–488.
[10] Gibadullin, A., & Pulyaeva, V. (2019). E3S Web of Conferences, 114, 02002.
[11] Morkovkin, D., Hutarava, I., Ogloblina, E., Gibadullin, A., & Kharchenko, S. (2020). E3S Web of Conferences, 176, 05002.
[12] Morkovkin, D. E., Lopatkin, D. S., Shushunova, T. N., Sharipov, B. K., & Gibadullin, A. A. (2020). Journal of Physics: Conference Series, 1515(3), 032002.
[13] Panchenko, A., Voloshina, A., Sadullozoda, S. S., Boltyansky, O., & Panina, V. (2022). Lecture Notes in Mechanical Engineering, 101–111.
[14] Ermakova, A. M. (2022). IOP Conference Series: Earth and Environmental Science, 1045, 012123.
[15] Kovshov, V. A., Zalilova, Z. A., Lukyanova, M. T., & Sagadeeva, E. F. (2021). Lecture Notes in Networks and Systems, 205, 595–603.