Techniques and Technology of Waste Disposal of Lignite Briquettes

Iryna Matsyuk; Vyacheslav Krivoschokov; Natalia  Kushniruk; Liudmyla Skliar

doi:10.4028/www.scientific.net/KEM.844.88

Paper Titles

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Mechanochemical Activation of Polymetallic Ore and Further Selective Floatation
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Results of Research into the Content of Rare Earth Materials in Man-Made Phosphogypsum Deposits
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Techniques and Technology of Waste Disposal of Lignite Briquettes
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The Laser Surface Treatment Effective on Structural Properties for Invar Alloy (Fe-Ni) Type Prepared by Powder Technology
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Quality Estimation for the Iron Ore Sinter Obtained via Separate Blend Preparation
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 844Techniques and Technology of Waste Disposal of...

Techniques and Technology of Waste Disposal of Lignite Briquettes

Abstract:

Development of a waste-free technology for lignite slurry upgrading at briquetting factories, which provides for getting cleared water for closed-loop water supply and transportable product for burning or briquetting with sustainable equipment application. Detection and study of peculiarities of lignite coal and slurry of briquetting factories, as well as research on slurry surface properties for substantiating a separation ratio. Determination of the separation ratio of lignite coal slurry taking into account its surface properties to estimate technological efficiency of reagentless flotation separation. Research on kinetics of settling and influence of different flocculants on efficiency of the slurry thickening process for sludge collection and getting circulating water. Development of waste-free technology for lignite slurry upgrading with the purpose of slurry recycling based on the substantiation of rational technological parameters and appropriate equipment. Regularities of the process of reagentless flotation separation of lignite coal slurry, kinetics of settling are defined, which is the basis of technological solutions on separate briquetting waste treatment. A waste-free technology for upgrading lignite slurry and cinders with closed-cycle of water supply and transportable final product for burning and briquetting with moisture content of 26% ... 28 % is developed. Floating and sinking fractions of lignite slurry are studied and necessity of separate treatment of these fractions is substantiated. Kinetic regularities of deposition of heat-treated lignite particles are determined; rational modes which provide for efficient deposition of particles of the sinking fraction with minimum flow of a flocculant are defined. A phenomenon of hydrophobic behaviour of mineral particle surface after heat treating and briquetting of lignite coal is revealed, which is taken as a separation ratio; this allowed substantiating the waste-free technology for lignite slurry upgrading through reagentless flotation separation. The practical value of the results obtained involves development of a waste treatment technology at a briquetting factory (slurries and cinders) and its conversion into closed-loop water supply, which will allow obtaining 23 t/year of transportable final product additionally as well as decreasing consumption of pure water considerably and eliminating environment pollution.

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Periodical:

Key Engineering Materials (Volume 844)

Pages:

88-96

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.844.88

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Online since:

May 2020

Authors:

Iryna Matsyuk*, Vyacheslav Krivoschokov, Natalia Kushniruk, Liudmyla Skliar

Keywords:

Cinders, Deposition, Lignite Slurry, Reagentless Flotation Separation, Separate Treatment of Floating, Sinking Fraction, Waste-Free Technology

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References

[1] BP Statistical Review of World Energy: https://www.bp.com.

Google Scholar

[2] Solid combustible minerals. State Research and Production Enterprise State Information Geological Fund of Ukraine,: http://geoinf.kiev.ua.

Google Scholar

[3] Mineral Commodity Summaries: http://minerals. er.usgs.gov/minerals/.

Google Scholar

[4] Svetets, I.E. (1985). Technological use of brown coal. Moskva: Nedra.

Google Scholar

[5] Aleksandrova, T.N., Rasskazova, A.V., & Prohorov, K.V. (2011). Substantiation of the innovative technology of fuel briquettes production from the brown coal raw material in the Far East of the Russian Federation. VI International Brown Coal Mining Congress Role and position of Brown Coal in the Global Power Industry of the 21-st Century, (Poland, Belсhatow, 11-13 April 2011), (1), 21-24.

Google Scholar

[6] Murko, V.I., Fedyaev, V.I., Aynetdinov, H.L., & Baranova, M.P., (2013). Enviromentally clean techology of fine waste coal utilization. The 8th International Symposium on Coal Combustion (The 8th ISCC), Turkey, 679-682.

Google Scholar

[7] Jasienko, S., & Gryglewich, G. (1995). Chemistry and physics of coal. Wroclaw: Oficyna Wydawnicza Politechniki Wroclawskiej.

Google Scholar

[8] Baranova, M.P., & Kulagin, V.A. (2011). Energy and Ecological Aspects of Coal-water Slurry Utilization. The 7th ISCC, Harbin.

Google Scholar

[9] Shpirt, M.Ya., Ruban, V.A., & Itkin, Yu.V. (1990). Rational utilization of waste from extraction and enrichment of coal. Moskva: Nedra.

Google Scholar

[10] Tamko, V.A., Shevkoplyas, V.N., &Saranchuk V.I. (1996). Non-waste processing of brown coal of the Alexandrian deposit. Coal of Ukraine, (6), 16-20.

Google Scholar

[11] Krivoshchokov, V.I., & Matsyuk, I.N. (2003). Resource efficient waste recycling at lignite briquetting factories. Mineral Processing: Collection of research papers, 18(59), 171-176.

Google Scholar

[12] Krivoshchokov, V.I., & Matsyuk, I.N. (2004). Technological properties and waste disposal at lignite briquetting factories. Coal of Ukraine, (20), 43-47.

Google Scholar

[13] Krivoshchokov, V.I., & Matsyuk, I.N. (2006). Reagentless floatation separation: methods and arrangement. Mineral Processing: Collection of research papers, 25(66)-26(67), 84-92.

Google Scholar

[14] Krivoshchokov, V.I., & Matsyuk, I.N. (2010). Lignite slurry treatment process: monograph. Dniepropetrovsk: National Mining University.

Google Scholar

[15] Falshtynskyi, V. (2016). Obosnovanie parametrov formirovaniya polostey rassloeniy v porodakh krovli pri gazifikatsii ugol'nogo plasta. Razrabotka Mestorozhdeniy, 10, (1), 16-24.

Google Scholar

[16] Kushniruk, N.V., Harkusha, M.S., & Matsyuk, I.M. (2017). Developing a new technology of recycling lignite slurries at briquetting factories. Proceedings of the International Science and Technology Conference Development of Industry and Society", Kryvyi Rih, SHEI "KNU,, 396.

Google Scholar