Publication detail
Thermogravimetric analysis of solid biomass fuels and corresponding emission of fine particles
SITEK, T. POSPÍŠIL, J. POLÁČIK, J. CHÝLEK, R.
English title
Thermogravimetric analysis of solid biomass fuels and corresponding emission of fine particles
Type
journal article in Web of Science
Language
en
Original abstract
A significant problem of biofuel combustion is the emerging emissions of particulate matter. This paper deals with the experimental determination of the particulate matter emission characteristics of 27 different types of conventional and less traditional solid biofuels. Thermogravimetric analysis is used for the controlled heating of all tested samples from 25 °C to 650 °C with a 10 °C·min−1 heating rate. The analysis is performed for two atmosphere compositions, namely 21 % O2 and 0 % O2. The resulting flue gas is fed to an instrument allowing fine particles' detection ranging from 18 to 545 nm in diameter. The relation between the temperature of fuel samples and the number and mass of the generated particles is investigated. The percentage of the original sample mass converted to particles is determined. Subsequently, particulate matter emission is expressed as a relation to sample ash content and sample volatile matter content. The specific particulate matter emissions range of all tested samples are expressed per megajoule of higher heating value (HHV): 1.02–2.67·10^15 #·MJ−1 and 694–2844 mg MJ−1 in the atmosphere with 21 % of O2 and 1.11–3.29·10^15 #·MJ−1 and 898–6823 mg MJ−1 in the atmosphere without oxygen (pyrolysis).
English abstract
A significant problem of biofuel combustion is the emerging emissions of particulate matter. This paper deals with the experimental determination of the particulate matter emission characteristics of 27 different types of conventional and less traditional solid biofuels. Thermogravimetric analysis is used for the controlled heating of all tested samples from 25 °C to 650 °C with a 10 °C·min−1 heating rate. The analysis is performed for two atmosphere compositions, namely 21 % O2 and 0 % O2. The resulting flue gas is fed to an instrument allowing fine particles' detection ranging from 18 to 545 nm in diameter. The relation between the temperature of fuel samples and the number and mass of the generated particles is investigated. The percentage of the original sample mass converted to particles is determined. Subsequently, particulate matter emission is expressed as a relation to sample ash content and sample volatile matter content. The specific particulate matter emissions range of all tested samples are expressed per megajoule of higher heating value (HHV): 1.02–2.67·10^15 #·MJ−1 and 694–2844 mg MJ−1 in the atmosphere with 21 % of O2 and 1.11–3.29·10^15 #·MJ−1 and 898–6823 mg MJ−1 in the atmosphere without oxygen (pyrolysis).
Keywords in English
Biomass; Fine particles; Particulate matter; Combustion; Pyrolysis; TGA
Released
15.12.2021
Publisher
Elsevier
Location
Amsterdam, Nizozemsko
ISSN
0360-5442
Number
237
Pages from–to
121609–121609
Pages count
11
BIBTEX
@article{BUT172187,
author="Tomáš {Sitek} and Jiří {Pospíšil} and Ján {Poláčik} and Radomír {Chýlek},
title="Thermogravimetric analysis of solid biomass fuels and corresponding emission of fine particles",
year="2021",
number="237",
month="December",
pages="121609--121609",
publisher="Elsevier",
address="Amsterdam, Nizozemsko",
issn="0360-5442"
}