MODEL OF THE INFLUENCE OF THE CLIMATIC CONDITIONS OF THE SLOVAK TERRITORY ON THE CONSUMPTION OF FIREWOOD AND THE PRODUCTION OF EMISSIONS DURING THE HEATING OF BUILDINGS

Authors

  • Ladislav Dzurenda Technical University in Zvolen
  • Adrián Banski Technical University in Zvolen

Keywords:

Buildings, Climatic conditions, Heating, Wood, Emissions

Abstract

A model of the influence of the climatic conditions of Slovakia on the consumption of firewood and the production of emissions in creating thermal comfort in a heated building is presented in the paper. The temperature of atmospheric air ranges from -11°C to -18°C in winter and the number of days of the heating period in the range between 202-253 in individual localities of Slovakia is reflected in the size of heat losses of the heated building, fuel consumption, and emissions production. The presented model allows for balancing the consumption of firewood and emission production for individual localities in Slovakia, following the locality's climatic conditions, the heated object's size, the boiler's thermal efficiency, and the type of firewood. 

References

Zákon o tepelnej energetike č. 657 / 2004 Z. z. Slovenskej republiky [Act on Thermal Energy No. 657 / 2004 Coll. Slovak Republic].

Vyhláška Ministerstva hospodárstva SR č. 152/2005 Z.z. o určenom čase a o určenej kvalite dodávky tepla pre konečného spotrebiteľa [Decree of the Ministry of Economy of the Slovak Republic no. 152/2005 Coll. on the specified time and on the specified quality of heat supply for the final consumer].

Domanski M., Dzurenda L., Jablonski M., Osipiuk J., 2008. Drewno jako materal energeticzny. Warszawa, SGGW: 131 p.

Dzurenda, L., Geffertova, J., Hecl, V., 2010. Energy characteristics of wood-chips produced from Salix viminalis - clone ULV. Drvna industrija. 61(1):27-31.

Dzurenda, L., Zoliak, M., 2011. Chemické zloženie horľaviny energetickej štiepky z dendromasy plantážnický pestovanej dreviny Populus klon Max 5. Acta Facultatis Xylologiae, 53 (1): 87-92.

Dzurenda, L., Bartko, M., Ridzik, L., 2012. Energetické vlastnosti zelenej štipky vyrobenej z konároviny plantážnicky pestovanej dreviny Populus x Euroamerikana klon Koltay. Acta Facultatis xylologiae, 54 (2): 115-122.

Dzurenda, L., Ladomersky, J., Hroncova, E., 2015. Conversion Factor of Fuel-Bound Nitrogen to Oxides in the Process of Spruce Wood Combustion in Boiler Grate Furnaces. Polish Journal of Environmental Studies. 24(2), 505-509. https://doi.org/10.15244/pjoes/27408

Dzurenda, L., Banski, A., 2015. Dependence of the boiler flue gas losses on humidity of woody biomass. In: Archives of Thermodynamics, 36(4): 77- 86.

https://doi.org/10.1515/aoter-2015-0034

Holubčik, M., Nosek, R., Jandačka, J., 2012: Optimization of the Production Process of Wood Pellets by Adding Additives. International journal of energy optimization and engineering. 1(2), 20-40. https://doi.org/10.4018/ijeoe.2012040102

Horák, J., Kuboňová, L., Tomšejová, Š., Laciok, V., Krpec, K., Hopan, F., Kubesa, P., Kysučan, Z., Ochodek, T., 2018. Change in the wood moisture dependency on time and drying conditions for heating by wood combustion. Wood Research. 63 (2): 261-27.

Hytönen, J., Nurmi, J., 2015. Heating value and ash content of intensively managed stands. Wood research, 60(1): 71-82.

Chabadová, J., Papučík, Š., Nosek, R., 2014. Particle emissions from biomass combustion. AIP Conference Proceedings 1608, 67. https://doi.org/10.1063/1.4892709

Jandačka, J., Holubcík, M., 2020. Emissions Production from Small Heat Sources Depending on Various Aspects. Mobile Networks and Applications volume 25, pages904–912. https://doi.org/10.1007/s11036-020-01519-1

Nord-Larsen, T., Bergstedt, A., Farver, O., Heding, N., 2011. Drying of firewood – the effect of harvesting time, tree species and shelter of stacked wood, Biomass Bioenergy 35(7): 2993-2998. https://doi.org/10.1016/j.biombioe.2011.03.039

Nosek, R., Holubcík, M., 2016. Energy properties of air dry firewood. In: Acta Facultatis Xylologiae Zvolen, 58 (1):105-112. https://doi.org/10.17423/afx.2016.58.1.12

Pástor, M., Dzurenda, L., Banski, A., Slobodník, B., Benčat, T., 2017. Energetic Characteristics of the Dendromass of Branches in the Sweet Chestnut (Castanea Sativa Mill.). In: Acta Facultatis xylologiae Zvolen. 59(2), 127-135. https://doi.org/10.17423/afx.2017.59.2.12

Senelwa, K., Ralph E. H. Sims, 1999. Fuel characteristics of short rotation forest biomass.Biomass & Bioenergy Volume 17, Issue 2, August 1999, Pages 127-140. https://doi.org/10.1016/S0961-9534(99)00035-5

J. Šoltés, J., Randa, M., 2018. Spracovanie návrhu emisných faktorov pre spaľovacie zariadenia pre MŽP SR, Národná energetická spoločnosť, Banská Bystrica, 41 p.

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Published

2023-06-12

How to Cite

Dzurenda, L., & Banski, A. (2023). MODEL OF THE INFLUENCE OF THE CLIMATIC CONDITIONS OF THE SLOVAK TERRITORY ON THE CONSUMPTION OF FIREWOOD AND THE PRODUCTION OF EMISSIONS DURING THE HEATING OF BUILDINGS . Acta Facultatis Xylologiae Zvolen, 65(1), 105–110. Retrieved from https://ojs.tuzvo.sk/index.php/AFXZ/article/view/40