Detail publikačního výsledku

Inorganic matter partitioning in boilers with grate burners and rated output below 25 kW: Ash type and particle forming elements

LACHMAN, J.; BALÁŠ, M.; LISÝ, M.; ZLEVOROVÁ, T.; LISÁ, H.

Originální název

Inorganic matter partitioning in boilers with grate burners and rated output below 25 kW: Ash type and particle forming elements

Anglický název

Inorganic matter partitioning in boilers with grate burners and rated output below 25 kW: Ash type and particle forming elements

Druh

Článek WoS

Originální abstrakt

The inorganic matter of solid biofuels can be categorized into three different ash types: type-S (Si, Al, Fe, Ti), type-K (K, Na, P, Cl, S) and type-C (Ca, Mg, Mn). A total of 9 different biofuels (3 for each ash type) has been analyzed and then combusted in a 25 kW grate fired boiler. Emission factors and partitioning of typical particle forming elements (Ca, K, Na, P and Zn) were determined and show a strong correlation (R2 = 0.88) with their content in the feedstock. Additionally, gaseous emissions, particle size distribution and emission factors of other major and trace elements were also established. The total ash content of the tested biofuels varied from 0.4 % for spruce up to 32.9 % for paper, however most fuels contained between 5 and 10 %. The emission factors show that the most prevalent element in the flue gas was K (generally contributing over 25 % to total particulate emissions). The release of K into the flue gas varied, with type-K fuels reaching values over 10 %, while type-S fuels only around 6 %, most likely due to the formation of refractory aluminosilicate phases. Moreover, with growing K release, the particle size distribution gradually shifted from 0.14 up to 0.59 μm.

Anglický abstrakt

The inorganic matter of solid biofuels can be categorized into three different ash types: type-S (Si, Al, Fe, Ti), type-K (K, Na, P, Cl, S) and type-C (Ca, Mg, Mn). A total of 9 different biofuels (3 for each ash type) has been analyzed and then combusted in a 25 kW grate fired boiler. Emission factors and partitioning of typical particle forming elements (Ca, K, Na, P and Zn) were determined and show a strong correlation (R2 = 0.88) with their content in the feedstock. Additionally, gaseous emissions, particle size distribution and emission factors of other major and trace elements were also established. The total ash content of the tested biofuels varied from 0.4 % for spruce up to 32.9 % for paper, however most fuels contained between 5 and 10 %. The emission factors show that the most prevalent element in the flue gas was K (generally contributing over 25 % to total particulate emissions). The release of K into the flue gas varied, with type-K fuels reaching values over 10 %, while type-S fuels only around 6 %, most likely due to the formation of refractory aluminosilicate phases. Moreover, with growing K release, the particle size distribution gradually shifted from 0.14 up to 0.59 μm.

Klíčová slova

Solid biofuels, Combustion, Inorganic matter, Trace elements, Slagging

Klíčová slova v angličtině

Solid biofuels, Combustion, Inorganic matter, Trace elements, Slagging

Autoři

LACHMAN, J.; BALÁŠ, M.; LISÝ, M.; ZLEVOROVÁ, T.; LISÁ, H.

Vydáno

18.11.2025

Periodikum

Fuel Processing Technology

Číslo

280

Stát

Nizozemsko

Strany počet

12

URL

https://www.sciencedirect.com/science/article/pii/S0378382025001924

BibTex

@article{BUT199497,
  author="Jakub {Lachman} and Marek {Baláš} and Martin {Lisý} and Tereza {Zlevorová} and Hana {Lisá}",
  title="Inorganic matter partitioning in boilers with grate burners and rated output below 25 kW: Ash type and particle forming elements",
  journal="Fuel Processing Technology",
  year="2025",
  number="280",
  pages="12",
  doi="10.1016/j.fuproc.2025.108368",
  issn="0378-3820",
  url="https://www.sciencedirect.com/science/article/pii/S0378382025001924"
}