Siberian Federal University 
- Issue
- Journal of Siberian Federal University. Chemistry. 2025 18 (2)
- Authors
- Bobu, Anatolii G.; Muradova, Mensura V.; Mokrina, Mariia S.; Kulik, Aleksandr V.; Sitnikova, Vera E.; Mokrin, Sergei N.; Ponomareva, Alina A.
- Contact information
- Bobu, Anatolii G.: ITMO University Saint Petersburg, Russian Federation; Muradova, Mensura V.: ITMO University Saint Petersburg, Russian Federation; Far Eastern Federal University Vladivostok, Russian Federation; ; Mokrina, Mariia S. : Far Eastern Federal University Vladivostok, Russian Federation; Kulik, Aleksandr V.: Far Eastern Federal University Vladivostok, Russian Federation; Sitnikova, Vera E.: ITMO University Saint Petersburg, Russian Federation; Mokrin, Sergei N. : Far Eastern Federal University Vladivostok, Russian Federation; Ponomareva, Alina A.: ITMO University Saint Petersburg, Russian Federation; Far Eastern Federal University Vladivostok, Russian Federation
- Keywords
- birch bark; coal; thermal decomposition; combustion indices; lower calorific value
- Abstract
The features of thermal decomposition of solid fuel such as birch bark and lignite coal were studied. Using thermogravimetric analysis, it was found that the processes of coal decomposition strongly depend on the composition of the atmosphere, in particular on the oxygen concentration. As a result of a calorimetric study, a linear dependence of the calorific value on the concentration of lignite coal particles in a mixture with birch bark was established. The research presented here is a significant step in the direction of utilizing birch bark and lignite coal in the fuel industry in a more efficient and environmentally sustainable manner
- Pages
- 315–326
- EDN
- HAJEGT
- Paper at repository of SibFU
- https://elib.sfu-kras.ru/handle/2311/156218
Journal of Siberian Federal University. Chemistry / Features of Thermal Transformation of Fuel Composites Based on Bio- Organic Materials
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