PSI - Issue 77

Alexander Backa et al. / Procedia Structural Integrity 77 (2026) 143–151 A. Backa et al. / Structural Integrity Procedia 00 (2026) 000 – 000

151

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Garcia-Maraver, A., Zamorano, M., Fernandes, U., Rabaçal, M., Costa, M., 2014. Relationship between fuel quality and gaseous and particulate matter emissions in a domestic pellet-fired boiler. Fuel 119, 141 – 152. https://doi.org/10.1016/J.FUEL.2013.11.037

ISO 17225-2:2021, Solid biofuels — Fuel specifications and classes — Part 2: Graded wood pellets, 2021. Jandačka, J., Malcho, M., Mikulík, M., 2008. Ekologické aspekty zámeny fosílnych palív za biomasu. Žilina.

Jiang, K., Xing, R., Luo, Z., Huang, W., Yi, F., Men, Y., Zhao, N., Chang, Z., Zhao, J., Pan, B., Shen, G., 2024. Pollutant emissions from biomass burning: A review on emission characteristics, environmental impacts, and research perspectives. Particuology 85, 296 – 309. https://doi.org/10.1016/J.PARTIC.2023.07.012 Kantová, N.Č., Čaja, A., Patsch, M., Holubčík, M., Ďurčanský, P., 2021. Dependence of the Flue Gas Flow on the Setting of the Separation Baffle in the Flue Gas Tract. Applied Sciences 2021, Vol. 11, Page 2961 11, 2961. https://doi.org/10.3390/APP11072961 Kantová, N.Č., Nosek, R., Čaja, A., Holubčík, M., 2024. Prediction of particulate matter during the combustion of wood pellet s with the addition of face mask waste. Journal of Hazardous Materials Advances 16, 100474. https://doi.org/10.1016/J.HAZADV.2024.100474 Obaidullah, Md., Bram, S., Ruyck, D.J., 2012. Characteristics of Particle Mass Concentrations from Small Scale Biomass Combustion: A Review, in: VII International Conference on Energy and Environment for 21 Century, Cen. Shen, G., Tao, S., Wei, S., Zhang, Y., Wang, R., Wang, B., Li, W., Shen, H., Huang, Y., Chen, Y., Chen, H., Yang, Y., Wang, W., Wei, W., Wang, Xilong, Liu, W., Wang, Xuejun, Simonich, S.L.M., 2012. Reductions in Emissions of Carbonaceous Particulate Matter and Polycyclic Aromatic Hydrocarbons from Combustion of Biomass Pellets in Comparisonwith Raw Fuel Burning. Environ Sci Technol 46, 6409. https://doi.org/10.1021/ES300369D Siegmund, T., Gollmer, C., Horstmann, N., Kaltschmitt, M., 2024. Carbon monoxide (CO) and particulate matter (PM) emissions during the combustion of wood pellets in a small-scale combustion unit – Influence of aluminum-(silicate-)based fuel additivation. Fuel Processing Technology 262, 108111. https://doi.org/10.1016/J.FUPROC.2024.108111 Sładek, S., Katelbach - Woźniak, A., Adamczyk, W.P., Klimanek, A., Korus, A., Szlęk, A., 2020. Procedure for in-fly particle temperature detection under combustion conditions. Energy 191, 116410. https://doi.org/10.1016/J.ENERGY.2019.116410 STN EN 16510- 1 Bytové spotrebiče na tuhé palivo. Časť 1: Všeobecné požiadavky a skúšobné metódy, 2023. Tamang, S., Park, H., 2023. An investigation on the thermal emission of hydrogen enrichment fuel in a gas turbine combustor. Int J Hydrogen Energy 48, 40071 – 40087. https://doi.org/10.1016/J.IJHYDENE.2023.07.144 Yilmaz, H., Schröder, L., Hillenbrand, T., Brüggemann, D., 2023. Laser and pre-chamber ignition, combustion and flame propagation characteristics of CH4/air mixtures in a constant volume combustion chamber. Energy Convers Manag 280, 116825. https://doi.org/10.1016/J.ENCONMAN.2023.116825