Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel

Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel

The possibilities of mechanochemistry in processing of renewable lignocellulose raw material into solid kinds of biofuel are demonstrated in this work. A review of lignocellulose raw materials promising for our country is presented. These raw materials include wastes from agriculture and forestry, a...

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Main Authors: Bychkov Aleksey, Podgorbunskikh Ekaterina, Skripkina Tatiana, Burdukov Anatoly, Lomovsky Oleg
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201711506003
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spelling doaj-98f5eedb90374bbb8a47bc1cacc5ba9d2021-04-02T15:31:02ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-011150600310.1051/matecconf/201711506003matecconf_sts2017_06003Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuelBychkov Aleksey0Podgorbunskikh Ekaterina1Skripkina Tatiana2Burdukov Anatoly3Lomovsky Oleg4Institute of Solid State Chemistry and Mechanochemistry, SB RASInstitute of Solid State Chemistry and Mechanochemistry, SB RASInstitute of Solid State Chemistry and Mechanochemistry, SB RASKutateladze Institute of Thermophysics, SB RASInstitute of Solid State Chemistry and Mechanochemistry, SB RASThe possibilities of mechanochemistry in processing of renewable lignocellulose raw material into solid kinds of biofuel are demonstrated in this work. A review of lignocellulose raw materials promising for our country is presented. These raw materials include wastes from agriculture and forestry, and the biomass of rapidly growing plants. The physicochemical properties of lignocellulose materials with different delignification degrees were modeled with the help of the artificial mixtures of plant raw material with purified cellulose and lignin. The data illustrating the effect of disperse state and lignin content on the reactivity of the material in subsequent combustion are presented. The tests at the combustion bench with the thermal power up to 5 MW allowed determining the optimal combustion parameters for the obtained biofuel in the autothermal mode.https://doi.org/10.1051/matecconf/201711506003
collection DOAJ
language English
format Article
sources DOAJ
author Bychkov Aleksey
Podgorbunskikh Ekaterina
Skripkina Tatiana
Burdukov Anatoly
Lomovsky Oleg
spellingShingle Bychkov Aleksey
Podgorbunskikh Ekaterina
Skripkina Tatiana
Burdukov Anatoly
Lomovsky Oleg
Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
MATEC Web of Conferences
author_facet Bychkov Aleksey
Podgorbunskikh Ekaterina
Skripkina Tatiana
Burdukov Anatoly
Lomovsky Oleg
author_sort Bychkov Aleksey
title Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
title_short Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
title_full Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
title_fullStr Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
title_full_unstemmed Mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
title_sort mechanochemical modification of the composition and structure of plant raw materials to control the combustion of alternative fuel
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2017-01-01
description The possibilities of mechanochemistry in processing of renewable lignocellulose raw material into solid kinds of biofuel are demonstrated in this work. A review of lignocellulose raw materials promising for our country is presented. These raw materials include wastes from agriculture and forestry, and the biomass of rapidly growing plants. The physicochemical properties of lignocellulose materials with different delignification degrees were modeled with the help of the artificial mixtures of plant raw material with purified cellulose and lignin. The data illustrating the effect of disperse state and lignin content on the reactivity of the material in subsequent combustion are presented. The tests at the combustion bench with the thermal power up to 5 MW allowed determining the optimal combustion parameters for the obtained biofuel in the autothermal mode.
url https://doi.org/10.1051/matecconf/201711506003
work_keys_str_mv AT bychkovaleksey mechanochemicalmodificationofthecompositionandstructureofplantrawmaterialstocontrolthecombustionofalternativefuel
AT podgorbunskikhekaterina mechanochemicalmodificationofthecompositionandstructureofplantrawmaterialstocontrolthecombustionofalternativefuel
AT skripkinatatiana mechanochemicalmodificationofthecompositionandstructureofplantrawmaterialstocontrolthecombustionofalternativefuel
AT burdukovanatoly mechanochemicalmodificationofthecompositionandstructureofplantrawmaterialstocontrolthecombustionofalternativefuel
AT lomovskyoleg mechanochemicalmodificationofthecompositionandstructureofplantrawmaterialstocontrolthecombustionofalternativefuel
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