Influence of air-conducting channels on combustion of coal briquets

Authors

  • A.S. Akhinzhanova Al-Farabi KazNU, al-Farabi ave. 71, Almaty, Kazakhstan
  • M.I. Tulepov Al-Farabi KazNU, al-Farabi ave. 71, Almaty, Kazakhstan
  • D.A. Baiseitov Al-Farabi KazNU, al-Farabi ave. 71, Almaty, Kazakhstan
  • Zh.A. Amir Al-Farabi KazNU, al-Farabi avenue 71, Almaty, Kazakhstan
  • F.Y. Abdrakova Al-Farabi KazNU, al-Farabi ave. 71, Almaty, Kazakhstan
  • S. Tursynbek Al-Farabi KazNU, al-Farabi ave. 71, Almaty, Kazakhstan
  • J.B. Kud’yarova Al-Farabi KazNU, al-Farabi ave. 71, Almaty, Kazakhstan

DOI:

https://doi.org/10.18321/cpc334

Keywords:

burning, briquette, coal, clay.

Abstract

The studies found that the increase in surface area increases briquette combustion rate and completeness of thecombustion of coal. The efficiency of burning coal substandard according to the increase in the area of combustion. Theoptimum sample briquette at which the maximum speed and completeness of combustion. In this work the dependence of combustion on the of shape channels was studied. The dependence of the briquette combustion temperature on the time without air channel and with air channels «Rod» and «Star» is investigated. The best performance at a temperature of 942 °C and a burning time of 50 min have briquettes with an air channel «Star». All of the coal briquettes that we examined are insensitive to shock, which facilitates the transportation of these briquettes.

References

(1). D.A. Baiseitov, Sh.E. Gabdrashova, A.K. Akylbai, O. Dalelkhanuly, Zh.B. Kudyarova, L.R. Sassykova, M.I. Tulepov and Z.A. Mansurov. Obtaining of liquid fuel from coal in the presence of the polymers // Int. J. Chem. Sci. – 2016. – V.14, №1. – P. 261-268.

(2). M. Tulepov, Z. Mansurov, L. Sassykova, D. Baiseitov, O. Dalelhanuly, Zh. Ualiev, Sh. Gabdrashova, Zh. Kudyarova. Research of iron-containing concentrates of balkhash deposit (Kazakhstan) for processing of low-grade coal // J. Chem. Technol. Metall – 2019. – V.54, №3. – P. 531-538.

(3). Merrick D. History of Coal Combustion and Conversion Technology. – London: Coal Combustion and Conversion Technology, Energy Alternatives Series, 1984. P.25-37. https://doi.org/10.1007/978-1-349-06197-6_2

(4) M. Meincken, S. Funk. Burning characteristics of low-cost safety charcoal briquettes made from wood residues and soil for domestic use // Agroforestry Systems – 2015. – V.89, №2. – P. 357-363. https://doi.org/10.1007/s10457-014-9772-8

(5). T.S. Manina, N.I. Fedorova, S.A. Semenova, Z.R. Ismailov. Processing low-grade oxidized coal to produce effective carbon sorbents // Coke and Chemistry – 2012. – V.55, №3. – P. 115-118. https://doi.org/10.3103/S1068364X12030027

(6). Widodo, D Fatimah, L M Estiaty. Coal blending preparation for non-carbonized coal briquettes // IOP Conference Series: Earth and Environmental Science – 2018. – V.118, – P. 1-6. https://doi.org/10.1088/1755-1315/118/1/012068

(7). A. S. Maloletnev, M. A. Gyul’malieva. Manufacture of aromatic hydrocarbons from coal hydrogenation products // Solid Fuel Chemistry – 2007. – V.41, №4. – P. 240-245. https://doi.org/10.3103/S036152190704009X

(8). Glenn G. Stevenson, Robert D. Perlack. The prospects for coal briquetting in the Third World // Energy Policy – 1989. – V.17, №3. – P. 215-227. https://doi.org/10.1016/0301-4215(89)90046-3

(9). Michael Jerry Antal, Morten Grønli. The Art, Science, and Technology of Charcoal Production // Industrial & Engineering Chemistry Research – 2003. – V.42, №8. – P. 1619-1640. https://doi.org/10.1021/ie0207919

(10). Michael A. Somerville. The Strength and Density of Green and Reduced Briquettes Made with Iron Ore and Charcoal // Journal of Sustainable Metallurgy – 2016. – V.2, №3. – P. 228-238. https://doi.org/10.1007/s40831-016-0057-5

(11). G S Khodakov. Influence of fine grinding on the physicochemical properties of solids // Russian Chemical Reviews – 1963. – V.32, №7. – P. 386-398. https://doi.org/10.1070/RC1963v032n07ABEH001350

(12). Отчет о НИР «Технологическая оценка углей Ойкарагайского месторождения с целью их комплексной переработки» – Караганда, 2000. – 80 с.

(13). Рассказова А.В., Александрова Т.Н.Технические и экологические аспекты производства угольных брикетов // Горн. инф. анал. бюл. 2013. Вып.4. – С.209-215.

(14). Александрова Т.Н., РассказоваА.В. Влияние состава и технологических режимов изготовления топлив- ных брикетов на их потребительские свойства // Проблемы освоения недр в XXI веке глазами молодых. Материалы 10 Международной научной школы молодых ученых и специалистов. 18-22 ноября 2013 г. М: ИПКОН РАН, 2013 – С. 244-247.

(15). Пахалок И.Ф., Болдырев В.Р. Брикетирование углей. − М.: Углетехиздат, 1957. – 179 с.

Published

2019-12-30

How to Cite

Akhinzhanova, A., Tulepov, M., Baiseitov, D., Amir, Z., Abdrakova, F., Tursynbek, S., & Kud’yarova, J. (2019). Influence of air-conducting channels on combustion of coal briquets. Combustion and Plasma Chemistry, 17(4), 229–232. https://doi.org/10.18321/cpc334