Manufacturing Technology 2015, 15(5):804-808 | DOI: 10.21062/ujep/x.2015/a/1213-2489/MT/15/5/804

Model of Heat Load on the Atmosphere by Flue Fases

Ladislav Dzurenda
Faculty of Wood Sciences and Technology, Technical University in Zvolen, T.G.Masaryka 2117/24, 960 53 Zvolen, Slovakia

This paper presents the analysis of heat load on the atmosphere by flue gases emitted from boilers combusting fuel wood with moisture content W = 10 - 60 %. From the analysis results, that the heat load on the atmosphere is affected by the moisture content of combusted wood, as well as the construction of the heat generator's boiler part - the extent of cooling of exhaust gases. The value of heat load factor on the atmosphere by flue gases from combustion of dry fuel wood with moisture content W = 10% at flue gases temperature ts = 120 0C is FQ = 96,22 MJ.GJ-1. The factor's value at moisture content of the fuel wood W = 60% and flue gases temperature ts = 200 0C equals FQ = 340,67 MJ.GJ-1.

Keywords: biofuel, wood, moisture content, flue gases, atmosphere

Published: November 1, 2015  Show citation

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Dzurenda L. Model of Heat Load on the Atmosphere by Flue Fases. Manufacturing Technology. 2015;15(5):804-808. doi: 10.21062/ujep/x.2015/a/1213-2489/MT/15/5/804.
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    References

    1. ČARNOGURSKÁ, M., PŘÍHODA, M., BRESTOVIČ, T. (2011). Modelling of nitrogen oxides formation applying dimensional analysis. In: Chemical and Process Engineering. 32(3): 175-184. DOI 10.2478/v10176-011-0013-7. Go to original source...
    2. DZURENDA, L., JANDAČKA, J. (2010). Energy utilization of dendromass. TU Zvolen, 162 s. (in Slovak)
    3. DZURENDA, L., GEFFERTOVÁ, J., HECL, V. (2010). Energy characteristics of wood-chips produced from Salix viminalis - clone ULV. In: Drvna industrija. 61(1):27-31.
    4. DZURENDA, L., BARTKO, M., RIDZIK, L. (2012). Energetic characteristics green chips made of branches of wood species Populus x euroamericana clone Koltay grown plantations. In: Acta Facultatis Xylologiae Zvolen. 54(2):115-122, ISSN 1336-3824. (in Slovak).
    5. DZURENDA, L., BANSKI, A., DZURENDA, M. (2014). Energetic properties of grenn wood chips from Salix viminalis grown on plantations. In Scientia agriculturae bohemica, 45(1): 44-49. Go to original source...
    6. DZURENDA, L., LADOMERSKÝ, J., HRONCOVÁ, E. (2015). Conversion Factor of Fuel-Bound Nitrogen to Oxides in the Process of Spruce Wood Combustion in Boiler Grate Furnaces. In: Pol. J. Environ. Stud. Vol 24. No.2, 505 - 509. Go to original source...
    7. DZURENDA, L., PŇAKOVIČ, Ľ. (2015). Energetická charakteristika biopaliva - lístia z jesenného opadu stromov tvrdých listnatých drevín. In: Acta Facultatis Xylologiae, 57(1): 119-126, ISSN 1336-3824.
    8. DZURENDA, L., BANSKI, A., ŠUSTEK, J. (2015). Dendromass - biofuel for heat and electricity. Zvolen: TU Zvolen, 2015. 171 p. (in Slovak).
    9. GOLONKOV, S.I., KOPERIN, I.F., NAJDENOV, V.I. (1987). Energy use of wood of wastes. Moskva: Lesnaja promyšlennosť. 220 p. (in Russian)
    10. HOLOUBEK, D. (2002). Combustion equipment, heat exchangers and boilers. Košice: ARS LITERA. 215 p. (in Slovak).
    11. JANDAČKA, J., MALCHO, M., MIKULÍK M. (2007). Technologies for the preparation and energy uses of biomass. Žilina: GEORG. 2007. 222 p. (in Slovak).
    12. JANDAČKA, J., PAPUČÍK, Š., NOSEK, R., HOLUBČÍK, M., KAPJOR, A. (2011). Environmental and energy aspects of biomass combustion. Žilina: GEORG. 2011. 305 p. (in Slovak).
    13. KOLLMANN, F. (1951). Technology of wood and wood-based materials. I band. Berlin-Gottingen-Heidelberg-Munchen. 433 p. (in German)
    14. LADOMERSKÝ, J. (2000) Emission analysis and minimization from the wood waste combustion. In: Drevársky výskum. 45(4):33-44.
    15. MALAŤÁK, J., VACULÍK, P. (2008). Biomass for energy production. CZU: Praha, 206 p. (in Czech)
    16. MARUTZKY, R., SEEGER K. (1999). Energy from wood and other biomass. DRD - Verlag Weinbrenner GmbH &Co., Leinfelden-Echterdingen. 430 s. (in German)
    17. MARUTZKY, R., SCHRIEVER E. (1988). Emissionsanforderungen an mit Spanplat-tenresten betriebene Feuerungsanlagen und Moglichkeiten der Einhaltung. In: Holz als Roh-und Werkstoff. 46, s. 383-388 Go to original source...
    18. NEUŽIL, V., HEPPNER, P., PICKOVÁ, H. (1997). Emisní zátež při použití různych druhů paliv. In: Energetika. 11/97. 359-363 p.
    19. NOSEK, R. HOLUBČÍK, M., PAPUČÍK, Š. (2014). Emission Controls Using Different Temperatures of Combustion Air, The Scientific World Journal, Article ID 138254, 6 p Go to original source...
    20. PICCHIO, R., SPINA, R., SIRNA, A., LO MONACO, A., CIVITARESE, V., DEL GIUDICE, A., SUARDI, A., PARI, L. (2012). Characterization of woodchips for energy from forestry and agroforestry production. Energies, 5, 3803-3816. doi: 10.3390/ Go to original source...
    21. RAJNIAK, I. a kol. (1997). Thermo-energetic and emission measurements. Bratislava: Ister Science, 481 p. (in Slovak).
    22. SIMANOV, V. (1995). Energy use of wood. Olomouc: Terapolis, 98 p. (in Czech)
    23. ŠKOLÁKOVÁ, A., NOVÁK, P., VOJTĚCH, V., KUBATÍK, T. F. (2014). Production of Al-Si-Fe-X alloys by Powder Metallurgy. In: MANUFACTURING TECHNOLOGY, 14(3):437-441, ISSN 1213-2489. Go to original source...
    24. VOJTĚCH, D., KUBÁSEK, J., VODĚROVÁ, M., ŠERÁK,J. (2014). Structure and Mechanical Properties of Mg-Based Alloys for Elevated Temperature Applications. In: MANUFACTURING TECHNOLOGY, 2014, 14(3):482-487, ISSN 1213-2489. Go to original source...
    25. VYSTRČIL, J., NOVÁK, P., MICHALCOVÁ, A. (2015). Preparation of Ultra-Fine Grained Alloys Based on Fe-Al-Si and Ti-Al-Si Intermetallic Compounds by Powder Metallurgy using the Mechanical Alloying. In: MANUFACTURING TECHNOLOGY, 2015, 15(2):238-242, ISSN 1213-2489. Go to original source...

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