MIS SANOATI SHLAKLARINI QAYTA ISHLASHDA ZAMONAVIY TADQIQOTLAR SHARHI (TAHLIL)

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27 март 2025

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MIS SANOATI SHLAKLARINI QAYTA ISHLASHDA ZAMONAVIY TADQIQOTLAR SHARHI (TAHLIL)

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MAQOLA ANNOTATSIYASI

Hozirgi sanoatlashgan dunyo talablaridan kelib chiqqan holda bugungi kunda juda ko‘plab metallurgik zavodlar ikkilamchi xom-ashyoni qayta ishlashni yo‘lga qo‘ygan. Bunga sabab qilib ruda zahirasi kamligi va metallurgik korxonalardan chiqqan chiqindilar ekologik falokatni keltirib chiqarishi ko‘rsatilishi mumkin. Yer osti zahiralaridan oqilona foydalanish va uni tejashning eng samarali usuli bu kon-metallurgiya sanoati chiqindilaridan foydalanishni jadallashtirish hisoblanadi. “Olmaliq KMK” AJ – O‘zbekiston Respublikasining eng yirik sanoat korxonalaridan biri bo‘lib, unda sanoat jarayonlaridan yiliga jami 500 ming tonna mis shlaklari hosil bo‘ladi. Odatda mis shlaklarida tahminan 32-37% gacha temir mavjud va 0,5-1,5% misdan iborat, bu uning qayta ishlash uchun qimmatli ikkilamchi manba ekanligini ko‘rsatadi. Shunday qilib, mis shlaklaridan oqilona foydalanish hamda ekologik xavotir kuchayib borayotganligi sababli, xavfli materiallar sifatida tavsiflangan mis shlaklaridan har tomonlama foydalanish uchun tegishli texnologiyani ishlab chiqish bugungi kun uchun juda dolzarbdir.

MUALIFLAR

Teglar

# кислота# acid# обогащение# цинк# zinc# уголь# carbon# сера# flotation# флотация# шлак# концентрат# пирит# медь# silicon# concentrate# кремний# железо# Iron# enrichment# sulfur# Copper# mis# slag# arsenic# pyrite# kremniy# халькопирит# chalcopyrite# boyitish# pyrometallurgy# pirometallurgiya# пирометаллургия# мышьяк# temir# oltingugurt# kislota# арсенопирит# arsenopyrite# pirit# arsenopirit# flotatsiya# shlak# konsentrat# Rux# штейн# matte# shteyn# uglerod# flyus# xalkopirit# xalkozin# mishyak# флюс# халькозин# flux# chalcocite

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Maqola idintifikatorlari

ROI:

https://eroi.uz/11.0032/A0325-0028

DOI:

Mavjud emas

Foydalanilgan adabiyotlar

1. Gyurov, S., Marinkov, N., Kostova, Y., Rabadjieva, D., Kovacheva, D., Tzvetkova, C., Penkov, I. (2017). Technological scheme for copper slag processing. International Journal of Mineral Processing, 158, 1–7. doi:10.1016/j.minpro.2016.11.008

2. Svetlana Sineva, Denis Shishin, Maksym Shevchenko, Peter C. Hayes, Evgueni Jak. Experimental study and thermodynamic modeling of distribution of elements among slag, matte and metal in the Cu–Fe–O–S–Si–(Zn)–(Al, Ca, Mg) system for copper slag cleaning applications, Journal of Materials Research and Technology, Volume 23,2023, Pages 5280-5300, ISSN 2238-7854, https://doi.org/10.1016/j.jmrt.2023.02.120.

3. Lanbin Wang, Wenjie Xie, Yangming Xu, Wenqi Zhang, Yan Sun, Yu Chen, Ruan Chi, Yaguang Du. Enhancing arsenic immobilization in calcium arsenate slag through mineral phase reconstruction using copper slag via acid evaporation // Process Safety and Environmental Protection. Volume 193, 2025, Pages 421-431, https://doi.org/10.1016/j.psep.2024.11.053.

4. Murari, K., Siddique, R., & Jain, K. K. (2014). Use of waste copper slag, a sustainable material. Journal of Material Cycles and Waste Management, 17(1), 13–26. doi:10.1007/s10163-014-0254-x