Mining industry uses electricity as well as pneumatic power or compressed air power. Mining compressor equipment (KKU) that produces this energy is the highest power equipment. The share of the energy balance of mining enterprises with the underground method of extracting minerals is a large share and reaches 20-30% for ore mines. Compressed air is transported from the compressor station to the pneumatic receivers of the mine through long air ducts. In this case, significant energy losses occur as a result of air cooling, as well as hydraulic resistance and pressure changes in the supply networks and compressed air leakage. As can be seen from the above, the main energy and material costs in the use of pneumatic energy in mining enterprises are related to the production and transportation of compressed air
Mining industry uses electricity as well as pneumatic power or compressed air power. Mining compressor equipment (KKU) that produces this energy is the highest power equipment. The share of the energy balance of mining enterprises with the underground method of extracting minerals is a large share and reaches 20-30% for ore mines. Compressed air is transported from the compressor station to the pneumatic receivers of the mine through long air ducts. In this case, significant energy losses occur as a result of air cooling, as well as hydraulic resistance and pressure changes in the supply networks and compressed air leakage. As can be seen from the above, the main energy and material costs in the use of pneumatic energy in mining enterprises are related to the production and transportation of compressed air
| № | Имя автора | Должность | Наименование организации |
|---|---|---|---|
| 1 | Djurayev R.U. | texnika fanlari doktori, professor | Navoiy davlat konchilik va texnologiyalar universiteti |
| 2 | Kayumov . . | assistent | Navoiy davlat konchilik va texnologiyalar universiteti |
| 3 | Pardayeva S.S. | doktorant | Fanlar akademiyasi Navoiy bolimi |
| № | Название ссылки |
|---|---|
| 1 | 1. Plastinin P. I. Piston compressor. Volume 1. Theory and theory. - M.: Kolos, 2000. - 456 p. |
| 2 | 2. Grishko A.P. Stationary cars. Volume 2. Rudnichnye vodootlivnye, ventilatornye i nevmaticheskie ustanovki: Uchebnik dlya vuzov. - M.: Izd. "Gornaya kniga", 2007. -586 p. |
| 3 | 3. Abduazizov N.A., Khatamova D.N., Djuraev R.U. Analysis of the working system of rudnichnyx pistonyx kompressornyx ustanovok // Gornyy vestnik Uzbekistana. – Navoi, 2021. - #1. - S.104-107. |
| 4 | 4. Khatamova D.N., Djuraev R.U. Issledovanie vliyaniya temperatury vsasyvaemogo vozdukha na effektivnost porshnevogo kompressora // Universum: teknicheskie nauki. - Moscow, 2021. - No. 6 (87). - S. 44-47. |
| 5 | 5. Jatkin A.N. Povyshenie effektivnosti rudnichnyx kompressornyx ustanovok za shet utilizatsii vtorichnyx energoresursov // Diss. sugar tech. science - Ekaterinburg, 2015. - 177 p |
| 6 | 6. Marc Borremans. Pumps and Compressors. ASME Press and John Wiley & Sons Ltd. - 2019. - 498 p |
| 7 | 7. Minyaev Yu. N., Ugolnikov A. V. Energeticheskoe obsledovanie i rekomendatsii po snijeniyu poter energii v pnevmaticheskikh setyax promyshlennyx predpriyatiy // Vserossiyskaya conference - Energo- i resursosberezhenie. Yekaterinburg: UGTU, 2003. S. 15-17. |
| 8 | 8.Джураев Р.У., Хатамова Д.Н. Повышение эксплуатационной эффективности рудничных компрессорных установок // – Т. Издательство ООО “Lesson Press”– 2022 г. - 151 с |
| 9 | 9.Пластинин П. И. Поршневые компрессоры. Т. 1. Теория и расчет. – М.: Колос, 2000. – 456 с. |
| 10 | 10.Merkulov M.V., Djuraev R.U., Leontyeva O.B., Makarova G.Y., Tarasova Y.B. Simulition of thermal power on bottomhole on the bases of experimental studies of drilling tool operation // International Journal of Emerging Trends in Engineering Research. – 2020. Vol. 8, №.8. – Р. 4383- 4389. |