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Toropova, N. V., PapinА. V., & IgnatovaА. Y. (2018). Development of a Technology, Processing Carbon-containing Fine-grained Waste into High-quality Briquette Fuel. KnE Engineering, 3(5), 30–38. https://doi.org/10.18502/keg.v3i4.2222

https://doi.org/10.18502/keg.v3i4.2222

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  • N V Toropova
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  • А V Papin
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  • А Y Ignatova
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Published Date

  • May 7, 2018

Development of a Technology, Processing Carbon-containing Fine-grained Waste into High-quality Briquette Fuel

KnE Engineering / Russian Forum of Young Scientists (RFYS) / Pages 30–38

Abstract

This article provides an overview of existing methods and techniques for processing man-made carbonaceous wastes from the coke chemical and coal mining industries, i.e. coke and coal dust. The advantages and disadvantages of the methods are briefly described. Based on the advantages, an oil agglomeration method was chosen to enrich the coke and coal dust. This method is effective in the enrichment of fine-grained waste, such as coal and coke dust, while the yield of the carbonaceous concentrate is up to 85%. The results of the technical analysis of the initial carboncontaining wastes and the obtained coal concentrate are presented. The qualitative characteristics of the briquetted fuel obtained on the basis of the concentrate are given. The specifications of the briquetted fuel are presented and its advantages are described.



Keywords: coke and coal dust, oil agglomeration, low ash concentrate

References
[1] Цикарев Д.А., Петрова Г.И., Бычев М.И. Переработка углей. Часть I. Зарубежный научный и промышленный опыт / В.П. Зубков. – Якутск: ЯФ Издво CО РАН, 2005. – 128 с. (in English: Tsikarev D.A., Petrova G.I., Bychev M.I. Coal Processing. Part I. International Scientific and Industrial Experience / V.P. Zubkov. -
Yakutsk: YaF Publishing House of the Siberian Branch of the Russian Academy of Sciences, 2005. - 128 p.)


[2] Лотош В.Е. Л 804 Переработка отходов природопользования. Екатеринбург: Полиграфист, 2007. – C. 265. (in English: Lotosh V.E. L 804 Nature Management Waste Processing. Yekaterinburg: Polygraphist, 2007. - P. 265.)


[3] Брикетирование угля: технология, особенности и устройства для домашнего изготовления [Электронный ресурс]. (in English: Coal Briquetting: Home Production Technology, Features and Devices [Electronic resource]) http://teplowood.ru/briketirovanie-uglya.html


[4] Елишевич Т.А. Брикетирование угля со связующим. – М.: Недра, 1972. – 216 с. (in English: Elishevich T.A. Briquetting of Coal with a Binder. - Moscow: Nedra, 1972. - 216 p.)


[5] Оборудование для брикетирования бурого и каменного угля [Электронный ресурс]. (in English: Liqnite and Coal Briquetting Equipment[Electronic source]) http://topbrik.ru.


[6] Водоугольное топливо на основе отходов обогащения угля коксохимических предприятий / Макаров А. C., Cавицкий Д. П. // Журнал «Уголь» № 7 (999) – 2009. C. 42-45. (in English: Water-Coal Fuel based on Coal Enrichment Waste by Coke Chemical Plants / Makarov A.S., Savitsky D.P. // Coal Journal No. 7 (999) - 2009. pp.
42-45.)


[7] Пат № 2173817 Топливная суспензия / Виноградов В. А., Доброхотов В. И., Мурко В. И., Нехороший И. Х., Cворов В. А, Cлепцов В. В. // Россия, опубл.: 25.12.2000. (in English: Path No 2173817 Fuel Suspension / Vinogradov V.A., Dobrokhotov V.I., Murko V.I., Nekhoroshy I.Kh., Svorov V.A., Sleptsov V.V. // Russia,
published on 25 December 2000)


[8] Li B. et al. // Separation Science and Technol. – 2003. – V.38. - № 5. – P. 630-634.


[9] ГОCТ 6382-2001 Топливо твердое минеральное. Методы определения выхода летучих веществ. – М.: Изд-во стандартов, 2001. (in English: GOST 6382-2001 Solid Mineral Fuel. Methods for Determining the Yield of Volatile Substances. - Moscow: Publishing Standards, 2001.)


[10] ГОCТ 11022-95 Топливо твердое минеральное. Методы определения зольности. – М.: Изд-во стандартов, 1995. (in English: GOST 11022-95 Solid Mineral Fuel. Methods for Determining Ash Content. - Moscow: Publishing Standards, 1995)


[11] ГОCТ 147-95 Определение высшей теплоты сгорания и вычисление низшей теплоты сгорания. – М.: Изд-во стандартов, 1995. (in English: GOST 147-95 Determination of the Highest Heat of Combustion and Calculation of the Lowest Heat of Combustion. - Moscow: Publishing Standards, 1995)


[12] ГОCТ 11014-2001 Угли бурые, каменные, антрацит и горючие сланцы. Ускоренный метод определения влаги. – М.: Изд-во стандартов, 2001. (in English: GOST 11014-2001 Lignites, Coals, Anthracite and Shale Coals. Accelerated Method for Determining Moisture. - Moscow: Publishing Standards, 2001)


[13] ГОCТ 2059-95 Топливо твердое минеральное. Метод определения общей серы сжиганием при высокой температуре. – М.: Изд-во стандартов, 1995. (in English: GOST 2059-95 Solid Mineral Fuel. Method for Determining Total Suphur by burning at High Temperature. - Moscow: Publishing Standards, 1995)


[14] Popov V., Papin A., Ignatova A., Makarovskikh A. Composite fuel based on residue from type and secondary polymer pyrolylis composite fuel based on residue from type and secondary polymer pyrolysis В сборнике: IOP Conference Series: Earth and Environmental Science 20. Cер. ”XX International Scientific Symposium
of Students, Postgraduates and Young Scientists on ”Problems of Geology and Subsurface Development”” 2016. C. 012065.


[15] ГОCТ 18132-72 Брикеты и полубрикеты торфяные. Метод определения механической прочности. – М.: Изд-во стандартов, 1972. (in English: GOST 18132- 72 Peat Briquettes and Semi-Briquettes. Method for Determining Mechanical Strength. - Moscow: Publishing Standards, 1972)


[16] ГОCТ 21289-75 Брикеты угольные. Методы определения механической прочности. – М.: Изд-во стандартов, 1975. (in English: GOST 21289-75 Coal Briquettes. Methods for Determining Mechanical Srength. - Moscow: Publishing Standards, 1975)