Emmission of Sulphur Oxides from Agricultural Solid Biofuels Combustion

Boman, C., Pettersson, E., Westerholm, R., Bostrom, D., Nordin, A. (2011). Stove performance and emission characteristic in residential wood log and pellet combustion. Part 1: Pellet stoves. Energy Fuels, 25(1), 307-314.Search in Google Scholar

Bukowski, P., Hardy, T. (2006). Korozja wysokotemperaturowa w paleniskach niskoemisyjnych. Archiwum Spalania, 6, 97-113.Search in Google Scholar

Demirbas, A. (2004). Combustion characteristics of different biomass fuels. Progress in Energy and Combustion Science, 30, 219-230.10.1016/j.pecs.2003.10.004Search in Google Scholar

Demirbas, A. (2005). Potential applications of renewable energy sources, biomass combustion problems in boiler power systems and combustion related environmental issues. Progress in Energy and Combustion Science, 31, 171-192.10.1016/j.pecs.2005.02.002Search in Google Scholar

Denisiuk, W. (2009). Słoma jako paliwo. Inżynieria Rolnicza, 1(110), 83-89.Search in Google Scholar

Denisiuk, W. (2020). Elements of Precision Agriculture in Malting Barley Cultivation and the Use of Barley Straw for Energy Purposes. Agricultural Engineering, 24(2), 21-27.10.1515/agriceng-2020-0013Search in Google Scholar

Dyjakon, A. (2012). Analysis of slagging and fouling propensities of biofuels in terms of their combustion and co-combustion in the boilers. Inżynieria Rolnicza, 16(4), 5-18.Search in Google Scholar

Dyrektywa 2001/80/WE Parlamentu Europejskiego i Rady z dnia 23 października 2001 r.w sprawie ograniczenia emisji niektórych zanieczyszczeń do powietrza z dużych obiektów energetycznego spalania.Search in Google Scholar

Fournel, S., Palacios, J.H., Morissette, R., Villeneuve, J., Godbout, S., Heitz, M., Savoie, P. (2015). Influence of biomass properties on technical and environmental performance of a multi-fuel boiler during on-farm combustion of energy crops. Applied Energy, 141, 247-259.10.1016/j.apenergy.2014.12.022Search in Google Scholar

Gorzelany, J., Zardzewiały, M., Murawski, P., Matłok, N. (2020). Analysis of Selected Quality Features of Wood Pellets. Agricultural Engineering, 24(1), 25-34.10.1515/agriceng-2020-0003Search in Google Scholar

Hardy, T., Kordylewski, W., Mościcki, K. (2009). Zagrożenie korozją chlorkową w wyniku spalania i współspalania biomasy w kotłach. Archiwum Spalania, 9(3/4), 181-195.Search in Google Scholar

Jenkins, B.M., Baxter, L.L., Miles, Jr. T.R., Miles, T.R. (1998). Combustion properties of biomass. Fuel Processing Technology, 54, 17-46.10.1016/S0378-3820(97)00059-3Search in Google Scholar

Jewiarz, M., Kubica, K., Kubica, R., Mokrosz, W. (2012). Zagrożenie korozyjne w kotłach wodnych opalanych słomą, in Słoma ˗ wykorzystanie w energetyce cieplnej. A. Grzybek (eds.). ITP, Falenty, Poland.Search in Google Scholar

Juszczak, M. (2013). Concentrations of carbon monoxide and nitrogen oxides (NO, NOX) from a 25 kW boiler supplied periodically and continuously with wood pellets. Archiwum Gospodarki Odpadami i Ochrony Środowiska, 15(3), 17-24.Search in Google Scholar

Juszczak, M. (2014). Concentration of carbon monoxide and nitrogen oxides from a 25 kW boiler supplied periodically. Chemical and Process Engineering, 35(2), 163-172.10.2478/cpe-2014-0012Search in Google Scholar

Kjällstrand J., Olsson M. (2004). Chimney emissions from small-scale burning of pellets and fuelwood - examples referring to different combustion appliances. Biomass and Bioenergy, 27, 557-561.10.1016/j.biombioe.2003.08.014Search in Google Scholar

Kordylewski, W. (2008). Spalanie i paliwa. Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław, Poland.Search in Google Scholar

Kraszkiewicz, A. Niedziółka, I. (2019). Emisja tlenków azotu podczas spalania biopaliw stałych, in Aktualne problemy inżynierii biosystemów. Przybył, J., Zaborowicz, M., Wojcieszak, D. (eds.). Wydawnictwo Uniwersytetu Przyrodniczego w Poznaniu, Poznań, PolandSearch in Google Scholar

Mc Kendry, P. (2002). Energy production from biomass (part 1): overview of biomass. Bioresource Technology, 83, 37-46.10.1016/S0960-8524(01)00118-3Search in Google Scholar

Niedziółka, I., Kachel-Jakubowska, M., Kraszkiewicz, A., Szpryngiel, M. (2013). Analiza cech fizycznych brykietów z biomasy roślinnej. Inżynieria Rolnicza, 2(143), 233-242.Search in Google Scholar

Nussbaumer, T. (2002). Combustion and co-combustion of biomass, in Proceedings of the 12th European biomass conference, I, 31-37.Search in Google Scholar

Nussbaumer, T. (2003). Combustion and co-combustion of biomass: fundamentals, technologies, and primary measures for emission reduction. Energy Fuels, 17(6), 1510-1521.10.1021/ef030031qSearch in Google Scholar

Obernberger, I. (2003). Physical characteristics and chemical composition of solid biomass fuels. In: Thermochemical Biomass Conversion. Eindhofen University of Technology.Search in Google Scholar

Obernberger, I., Brunner, T., & Bärnthaler, G. (2006). Chemical properties of solid biofuels – significance and impact. Biomass Bioenergy, 30, 973-982.10.1016/j.biombioe.2006.06.011Search in Google Scholar

Olsson, M., & Kjällstrand J. (2006). Low emission from wood burning in an ecolabelled residential boiler. Atmospheric Environment, 40, 148-1158.10.1016/j.atmosenv.2005.11.008Search in Google Scholar

PN EN 303-5:2012 Heating Boilers for Solid Fuels with Manual and Automatic Fuel Hopper of Nominal PowerUp to 300 kW. Terminology, Requirements, Testing And marking; Polish Committee for Standardization: Warsaw, Poland, 2012.Search in Google Scholar

PN-EN ISO 16127:2012 Biopaliwa stałe - Określanie długości i średnicy peletów.Search in Google Scholar

PN EN ISO 16948:2015 Solid biofuels - Determination of total content of carbon, hydrogen and nitrogen.Search in Google Scholar

PN EN ISO 16994:2016 Solid biofuels - Determination of total content of sulfur and chlorine.Search in Google Scholar

PN-EN ISO 17225-7:2014-08 Biopaliwa stałe - Specyfikacje paliw i klasy - Część 7: Klasy brykietów niedrzewnych.Search in Google Scholar

PN EN ISO 18122:2016 Solid biofuels - Determination of ash content.Search in Google Scholar

PN EN ISO 18125:2017 Solid biofuels - Determination of calorific value.Search in Google Scholar

PN EN ISO 18134-3:2015 Solid biofuels - Determination of moisture content - Oven dry method - Part 3: Moisture in general analysis sample.Search in Google Scholar

Rozporządzenie MŚ z dnia 20 grudnia 2005 r. w sprawie standardów emisyjnych z instalacji.Search in Google Scholar

Shao, Y., Wang, J., Preto, F., Zhu, J., & Xu, Ch. (2012). Ash Deposition in Biomass Combustion or Co-Firing for Power/Heat Generation. Energies, 5, 5171-5189.10.3390/en5125171Search in Google Scholar

Verma, V.K., Bram, S., Gauthier, G., & De Ruyck, J. (2011a). Evaluation of the performance of a multi-fuel domestic boiler with respect to the existing European standard and quality labels: Part-1. Biomass and Bioenergy, 35, 80-89.10.1016/j.biombioe.2010.08.028Search in Google Scholar

Verma, V.K., Bram, S., Gauthier, G., & De Ruyck, J. (2011b). Performance of a domestic pellet boiler as a func-tion of operetional loads. Part 2, Biomass and Bioenergy, 35, 272.10.1016/j.biombioe.2010.08.043Search in Google Scholar

Wang, Z.J., & Pei, D. (2011). Physical properties of pellets made from sorghum stalk, corn stover, wheat straw, and big bluestem. Industrial Crops and Products, 33, 325-332.10.1016/j.indcrop.2010.11.014Search in Google Scholar

Yang, Y.B., Ryu, Ch., Khor, A., Yates, N.E., Sharifi, V.N., & Swithenbank, J. (2005). Effect of fuel properties on biomass combustion. Part II. Modelling approach identification of the controlling factors. Fuel, 84, 2116-2130.10.1016/j.fuel.2005.04.023Search in Google Scholar