Thermophysical properties of composite fuel based on T grade coal (Alardinskoe deposit) and timber industry wastes

Research output: Contribution to journalConference article

Abstract

Results of experimental studies of composite fuel thermal decomposition processes based on T grade coal (Alardinskoe deposit) and timber industry wastes (fine wood) are presented. C, H, N, S weight percentage of each component of composite fuel was determined experimentally. It has been established that with an increase in wood concentration up to 50% in composite fuel, its energy characteristics decrease by less than 3.6%, while the yield of fly ash is 39.7%. An effective composite fuel composition has been defined as 50%/50%. Results of performed experimental studies suggest that it is possible to use composite fuels based on coal and wood at thermal power plants.

Original languageEnglish
Article number092014
JournalJournal of Physics: Conference Series
Volume899
Issue number9
DOIs
Publication statusPublished - 27 Sep 2017
Event2nd All-Russian Scientific Conference Thermophysics and Physical Hydrodynamics with the School for Young Scientists, TPH 2017 - Yalta, Crimea, Ukraine
Duration: 11 Sep 201717 Sep 2017

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thermophysical properties
coal
grade
industries
deposits
composite materials
fly ash
turbogenerators
power plants
thermal decomposition
energy

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

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title = "Thermophysical properties of composite fuel based on T grade coal (Alardinskoe deposit) and timber industry wastes",
abstract = "Results of experimental studies of composite fuel thermal decomposition processes based on T grade coal (Alardinskoe deposit) and timber industry wastes (fine wood) are presented. C, H, N, S weight percentage of each component of composite fuel was determined experimentally. It has been established that with an increase in wood concentration up to 50{\%} in composite fuel, its energy characteristics decrease by less than 3.6{\%}, while the yield of fly ash is 39.7{\%}. An effective composite fuel composition has been defined as 50{\%}/50{\%}. Results of performed experimental studies suggest that it is possible to use composite fuels based on coal and wood at thermal power plants.",
author = "Yankovsky, {S. A.} and Tolokolnikov, {A. A.} and Gubin, {V. E.} and Slyusarskiy, {K. V.} and Zenkov, {A. V.}",
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AU - Yankovsky, S. A.

AU - Tolokolnikov, A. A.

AU - Gubin, V. E.

AU - Slyusarskiy, K. V.

AU - Zenkov, A. V.

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N2 - Results of experimental studies of composite fuel thermal decomposition processes based on T grade coal (Alardinskoe deposit) and timber industry wastes (fine wood) are presented. C, H, N, S weight percentage of each component of composite fuel was determined experimentally. It has been established that with an increase in wood concentration up to 50% in composite fuel, its energy characteristics decrease by less than 3.6%, while the yield of fly ash is 39.7%. An effective composite fuel composition has been defined as 50%/50%. Results of performed experimental studies suggest that it is possible to use composite fuels based on coal and wood at thermal power plants.

AB - Results of experimental studies of composite fuel thermal decomposition processes based on T grade coal (Alardinskoe deposit) and timber industry wastes (fine wood) are presented. C, H, N, S weight percentage of each component of composite fuel was determined experimentally. It has been established that with an increase in wood concentration up to 50% in composite fuel, its energy characteristics decrease by less than 3.6%, while the yield of fly ash is 39.7%. An effective composite fuel composition has been defined as 50%/50%. Results of performed experimental studies suggest that it is possible to use composite fuels based on coal and wood at thermal power plants.

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