The article notes that the economic feasibility of implementing a project based on
deposits directly affects the economy of the country and the region, as well as the construction of new
facilities, the use of the most balanced approaches and design solutions in a complex will allowachieving the set goal of increasing production volumes and bringing the enterprise to a new level of
development. In order to achieve the above goals, it has been proven with the implementation of
investment projects using software for the design of open-pit mining, it is possible to further develop
the region, agriculture with appropriate infrastructure for the development of cities and rural
settlements and additional jobs will be created, which will provide favorable conditions for the growth
of living standards, income growth of the population. The Alastri software product is presented, which
is applicable for planning open-pit mining operations, which implies a large cycle of technological
processes. An analysis was performed during the design of quarries using software that pays special
attention to determining the optimal contours of the quarry and drawing up a calendar for ore mining,
which show the feasibility of mining a mineral deposit.
The article notes that the economic feasibility of implementing a project based on
deposits directly affects the economy of the country and the region, as well as the construction of new
facilities, the use of the most balanced approaches and design solutions in a complex will allowachieving the set goal of increasing production volumes and bringing the enterprise to a new level of
development. In order to achieve the above goals, it has been proven with the implementation of
investment projects using software for the design of open-pit mining, it is possible to further develop
the region, agriculture with appropriate infrastructure for the development of cities and rural
settlements and additional jobs will be created, which will provide favorable conditions for the growth
of living standards, income growth of the population. The Alastri software product is presented, which
is applicable for planning open-pit mining operations, which implies a large cycle of technological
processes. An analysis was performed during the design of quarries using software that pays special
attention to determining the optimal contours of the quarry and drawing up a calendar for ore mining,
which show the feasibility of mining a mineral deposit.
№ | Муаллифнинг исми | Лавозими | Ташкилот номи |
---|---|---|---|
1 | Komilov T.. | PhD | Tashkent State Technical University |
2 | Ashurov B.N. | PhD | Tashkent State Technical University |
3 | Sattarov .B. | student | Tashkent State Technical University |
4 | Karimov M. . | PhD | Tashkent State Technical University |
№ | Ҳавола номи |
---|---|
1 | 1. Resolution of the Cabinet of Ministers of the Republic of Uzbekistan dated June 23, 2020, No. 403 "On measures to further improve the procedure for issuing licenses for subsoil use." 2. Presidential Decree of the Republic of Uzbekistan No. UP-6319 dated October 6, 2021, "On measures to further stimulate geological exploration and improve the taxation procedures for subsoil users." 3. Presidential Decree of the Republic of Uzbekistan No. 332 dated July 25, 2022, "On measures to further improve the procedure for conducting expertise of pre-project documentation for investment and infrastructure projects, tender procurement documentation, technical specifications for state procurement, and contracts. |
2 | 4. Rzhevsky V.V. Open-pit mining. Part 1: Production processes. – Moscow, 2023. (in Russian) 5. Trubetskoy K.N., Krasnyansky G.L., Khronin V.V., Kovalenko V.S., Designing Quarries. – Moscow, "Vysshaya Shkola" Publishing House, 2009. (in Russian) 6. Sekisov G.V., Alekseev V.S. Designing Quarries. – Khabarovsk, "TOGU" Publishing House, 2017. (in Russian) 7. Tikhonenko E.N. Organization of Quarry Design. // Engineering Bulletin of Don // – Tyumen, No. 2 (2018). (in Russian) |
3 | 8. Rzhevsky, V. Scientific Foundations of Quarry Design / V.V. Rzhevsky, M.G. Novozhilov, B.P. Yumatov. - Moscow: Nedra, 1971 – P. 212. (in Russian) 9. Trubetskoy, K. Handbook. Open-pit Mining / K.N. Trubetskoy, M.G. Potapov, K.E. Vinnitsky, N.N. Melnikov et al. - Moscow: Mining Bureau, 1994. – P. 590. (in Russian) 10. Designing Quarries / K.N. Trubetskoy, G.L. Krasnyansky, V.V. Khronin, V.S. Kovalenko. - Moscow: Vysshaya Shkola, 2009. – P. 694. (in Russian) |
4 | 11. Shestakov, E.A. Designing Mining Enterprises / E.A. Shestakov. - Moscow: MGGU Publishing House, 2003. – P. 212. (in Russian) 12. Vasiliev, M.V. Scientific Foundations of Combined Quarry Design / M.V. Vasiliev, V.L. Yakovlev. - Moscow: Nauka, 1972. – P. 199. (in Russian) 13. Arsentyev, A.I. Designing Mining Operations for Open-pit Development of Deposits / A.I. Arsentyev, G.A. Kholodnyakov. - Moscow: Nedra, 1994. – P. 336. (in Russian) |
5 | 14. Safety Rules for Open-pit Coal Mining. Moscow: 2003. (in Russian) 15. https://www.micromine.com. 16. Shestakov, E.A. Designing Mining Enterprises / E.A. Shestakov. - Moscow: MGGU Publishing House, 2003. – P. 212. (in Russian) 17. Gorodetsky, P.I. Fundamentals of Designing Mining and Metallurgical Enterprises / P.I. Gorodetsky. - Moscow: Metallurgizdat, 1955. – P. 416. (in Russian) |