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References Serra , T. et al. 2009. Price Transmission in the US Ethanol Market. Handbook of Bioenergy Economics and Policy, Springer New York, vol. 33, 2009. The Market analysis Oils and Fats for Fuel. 2009. Productshap MVO, Product Board for Margarine, Fats and Oils. 2009. (online 2011-9-14). Thuijl, E. et al. 2003. An Overview of biofuel Technologies, markets and Policies in Europe. Energy research Centre of the Netherlands, 2003. (online 2011

. Stanovenie obsahu popola. STN EN 15148: 2010. Tuhé biopalivá. Stanovenie obsahu prchavých látok. STN ISO 1171: 2003. Tuhé biopalivá. Stanovenie obsahu popola. VITÁZEK, I. - VITÁZKOVÁ, B. 2012. Selected physical properties of solid biofuels. In PTEP - Journal on Processing and Energy in Agriculture, vol. 16, 2012. no. 4, pp. 165-168.

References 1. Cansino, J.M., Pablo-Romero, M., Roman, R., & Yniguez, R. (2012). Promotion of biofuel consumption in the transport sector: An EU-27 perspective. Renewable and Sustainable Energy Reviews, 16 (8), 6013-6021. 2. Directive 2003/30/EC of the European Parliament and of the Council of 8 May 2003 on the promotion of the use of biofuels or other renewable fuels for transport (2003, Brussels). 3. Directive 2009/28/EC of the European Parliament and of the Council of 23 April 2009 on the promotion of the use of energy from renewable energy sources and amending

References [1] Luque, R., Clark, J., Handbook of biofuels production: processes and technologies , Woodhead Publishing Limited, 2011. [2] Orliński, P., Ocena wpływu zmiany kąta wyprzedzenia wtrysku na proces wydzielania ciepła w silniku rolniczym zasilanym biopaliwami , Logistyka, 3, pp. 4843-4854, 2014. [3] Gliperol – nowe paliwo , Instytut Chemii Przemysłowej im. Ignacego Mościckiego: . [4] Bocheńsk, C. I., et al., Badania wpływu właściwości fizyko-chemicznych paliwa do silników wysokoprężnych na charakterystykę wtrysku

as revealed by phospholipid fatty acid analysis. - Soil Biology and Biochemistry, 25, 723-730. Hagerberg, D., Wallander, H. 2002. The impact of forest residue removal and wood ash amendment on the growth of the ectomycorrhizal external mycelium. - FEMS Microbiology Ecology, 39, 139-146. Haglund, N. and Expert group. 2008. Guideline for Classification of Ash From Solid Biofuels and Peat Utilised for Recycling and Fertilizing in Forestry and Agriculture. NT Technical Report TR 613. Oslo, Nordic Innovation Centre. 34 pp. Hakkila, P. 1984. Forest chips as fuel for

Annual Conference , Univ. of Saskatchewan, Saskatoon, 7-10 July 2013. Narra, S., Tao, Y., Glaser, C., Gusovius, H.J., Ay, P. (2010). Increasing the Calorific Value of Rye Straw Pellets with Biogenous and Fossil Fuel Additives. Energy Fuels , Vol. 24 , 5228-5234: DOI:10.1021/ef100823b. Nguyen, Q., Bowyer, J. (2017). Global production of second generation biofuels: Trends and influences. Available at: . Planning and installing bioenergy systems. (2005). A guide for installers, architects and

Development. 2011;6(2):33-62. [5] Mroczek B, Kurpas D, Klera M. Sustainable Development and Wind Farms. Problemy Ekorozwoju/Problems of Sustainable Development. 2013;8(2):113-122. [6] Nader S. Path to Low-Carbon Economy. The Masadar Example, Energy Precedia. 2009;1(1):3951-3958 [7] Lindzen RS. Global Warming: The Origin and Nature of the Alleged Scientific Consensus. Problemy Ekorozwoju/Problems of Sustainable Development. 2010;5:13-28. [8] Danielesen F, Beukema H, Burges N, Parish F, Bruhl C, Donald P, et al. Biofuel plantation on forested lands: double jeopardy for

. 79–82. MZSPP. 2009. Izvestaj o stanju zemljista u Republici Srbiji, pp. 1–10 MOREIRA, J. 2006. Global biomass energy potential. In Mitig Adapt Strateg Glob Change, vol. 11, 2006, no. 2, pp. 313–333 ROBERTSON, G. P. – DALE, V. H. – DOERING, O. C. – HAMBURG, S. P. – MELILLO, J. M. – … WILHELM, W. W. 2008. Sustainable biofuels redux. In Science, 322, pp. 49–50. RZS. 2012. Popis poljoprivrede 2012. godine u Republici Srbiji. SEACHINGER, T. – HEIMLICH, R. – HOUGHTON, R. A. – DONG, F. – ELOBEID, A. – FABIOSA, J. – … YU, T. 2008. Use of U.S. croplands for biofuels

References Bajwa D.S., Peterson T., Sharma N., Shojaeiarani J., Bajwa S.G. 2018. A review of densified solid biomass for energy production. Renewable and Sustainable Energy Reviews , 96: 296–305. Berezyuk S., Tokarchuk D., Pryshliak N. 2019. Economic and Environmental Benefits of Using Waste Potential as a Valuable Secondary and Energy Resource. Journal of Environmental Management and Tourism , X, 1(33): 149–160. Brunerova A., Malaťák J., Müller M., Valášek P., Roubík H. 2017. Tropical waste biomass potential for solid biofuels production. Agronomy Research

References [1] Dyrektywa Parlamentu Europejskiego i Rady 2008/1/WE z dnia 15.01.2008 r. dotycząca zintegrowanego zapobiegania zanieczyszczeniom i ich kontroli. [2] Dyrektywa Parlamentu Europejskiego i Rady 2008/50/WE z dnia 21 maja 2008 r. w sprawie [3] Biała Księga, Plan utworzenia jednolitego europejskiego obszaru transportu – dążenie do osiągnięcia konkurencyjnego i zasobooszczędnego systemu transportu , Komunikat (2011) 144 Komisji Europejskiej z 28.03.2011 r. [4] Holladay, J. Advanced liquid biofuels: Current situation and prospects , Innovation for Cool