After the coal is removed from the coal mines, it is delivered to the necessary
production industries. Coal dust is formed in coal mines and during transportation for industry.
This does not leave a negative impact on the environment. Today, preventing the
accumulation of coal dust and residues in our Republic and directing it to targeted production
is one of the urgent issues of today. We will be able to determine the full thermodynamic
properties of the obtained porous coal adsorbents by enriching them with additional
substances and determining the adsorption properties of the obtained porous coal adsorbents
using capillary and volume methods in a high vacuum adsorption device and a high-sensitivity
DAK 1-1 calorimetric apparatus. By determining the adsorption isotherm, differential heat,
entropy and equilibrium time of benzene on the obtained coal, it is possible to describe in
detail the adsorption volume, location of active centers, and pore sizes of the new adsorbent
After the coal is removed from the coal mines, it is delivered to the necessary
production industries. Coal dust is formed in coal mines and during transportation for industry.
This does not leave a negative impact on the environment. Today, preventing the
accumulation of coal dust and residues in our Republic and directing it to targeted production
is one of the urgent issues of today. We will be able to determine the full thermodynamic
properties of the obtained porous coal adsorbents by enriching them with additional
substances and determining the adsorption properties of the obtained porous coal adsorbents
using capillary and volume methods in a high vacuum adsorption device and a high-sensitivity
DAK 1-1 calorimetric apparatus. By determining the adsorption isotherm, differential heat,
entropy and equilibrium time of benzene on the obtained coal, it is possible to describe in
detail the adsorption volume, location of active centers, and pore sizes of the new adsorbent
№ | Муаллифнинг исми | Лавозими | Ташкилот номи |
---|---|---|---|
1 | Gulomova G.M. | teacher | TSTU |
2 | Fayzullaev O.T. | teacher | Termiz institute of engineering technologies |
№ | Ҳавола номи |
---|---|
1 | G.M. Gulyamova., M.N. Musaev. Problems of sludge waste disposal in the oil and gas industry. “Collection of materials of the VII international correspondence scientific and practical conference”, 2020. 98 |
2 | G.M. Gulyamova., M.N. Musaev. Methods of utilization and processing of oil sludge. “International scientific and technical on-line conference”, 2020. 323 |
3 | G.M. Gulyamova., Z.P. Bozorov., Y.A. Talipova. The influence of the environment on the strength of building structures. “Novateur publication, Indian magazine”, 2021. 733 |
4 | GOST R 56357 Activated carbon AG-3 Technical conditions. FSUE “STANDARTYANF O RM”, 2015 |
5 | A.I. Sharipova. Obtaining coal adsorbents based on local wood waste, investigation of their physico-chemical and adsorption properties. “Journal of critical reviews”, 2020. 128 |
6 | S. Kuldasheva., B. Jumabaev., A. Agzamkhodjayev., L. Aymirzaeva., K. Shomurodov. Stabilization of the moving sands of the drained and dried aral sea bed. “Journal of chemical technology and metallurgy”, 2015. 314 |
7 | N. Khudayberganova., A. Rizaev., E. Abduraxmonov. Adsorption properties of benzene vapors on activated carbon from coke and asphalt. “E3S web of conferences”, 2021 |
8 | I. Eshmetov., D. Salihanova., A. Agzamhodjaev. Examination of the influence of the grinding degree and stabilizing agent on the rheological properties of aqua-coal fuel suspensions. “Journal of chemical technology and metallurgy”, 2015. 157 |