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The Effects of Plantation Size and Internal Transport on Energy Efficiency of Biofuel Production
Mathematical model describing energetic efficiency (defined as a ratio of energy obtained in the form of biofuel to the sum of energy inputs necessary to facilitate production) of agricultural subsystem as a function of technological parameters was developed. Production technology is characterized by parameters of machinery, topological characteristics of the plantation as well as transportation routes inside and outside of plantation. The relationship between the energetic efficiency of agricultural and industrial subsystems is also derived. Due to the assumed large area of the individual field, the operations last for several days increasing inter-fields routes because of several returns. The total distance driven outside of the fields is, however, small as compared to the distance driven inside of the fields. This results in small energy consumption during inter-fields transport that, however, causes a substantial decrease of the energetic effectiveness of the whole system.
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[1] J. A. Mathews, “From the petroeconomy to the bioeconomy: Integrating bioenergy production with agricultural demands Biofuels”, Bioproducts and Biorefining, vol. 3, pp. 613–632, 2009.
[2] F. Abnisa, W. M. A. Wan Daud, W. N. W. Husin, J. N. Sahu, “Utilization possibilities of palm shell as a source of biomass energy in Malaysia by producing bio-oil in pyrolysis process”, Biomass and Bioenergy, vol. 35, pp. 1863–1872, 2011.
[3] J. P. Painuly, H. Rao, J. Parikh, “A rural energy-agriculture interaction model applied to Karnataka state”, Energy, vol.20, pp. 219–233, 1995.
[4] T. Juliszewski, T. Zając, Biopaliwa rzepakowe (Rapeseed Biofuels). PWRiL Governemental Agricultural and Forestry Publishing House: Poznań, 2007, pp. 49–51.
[5] Z. Jasińska, A. Kotecki, Szczegółowa uprawa roślin (Detailed Tillage of Plants). Wroclaw Agricultural Academy: Wrocław, 1999, pp. 412–434.
[6] B. Igiliński, R. Buczkowski, M. Cichosz, Technologie bioenergetyczne (Bioenergetic Technologies). Nicolaus Copernicus University Publisher: Toruń, 2009, pp. 218–223.
[7] W. F. Pickard, “Energy Return on Energy Invested (EROI): A quintessential but possibly Inadequate Metric for Sustainability in a Solar-Powered World?”, Proceedings of the IEEE, vol. 102, pp. 1118–1122, 2014.
[8] P. Moriarty, D. Honnery, “Can renewable energy power the future?”, Energy Policy, vol. 93, pp. 3–7, 2016.
[9] L. Raslavicius, Z. Bazaras, “Ecological assessment and economic feasibility to utilize first generation biofuels in cogeneration output cycle - The case of Lithuania”, Energy, vol. 35, pp. 3666–3673, 2010.
[10] G. Fontaras, V. Skoulou, G. Zanakis, A. Zabaniotou, Z. Samaras, “Integrated environmental assessment of energy crops for biofuel and energy production in Greece”, Renewable Energy, vol. 43, pp. 201–209, 2012.
[11] A. Wasiak, O. Orynycz, M. Nosal, “Perspektywy produkcji biopaliw w regionie Podlaskim (Perspectives of biofuel production in Podlaskie region)”, Ekonomia i Zarządzanie (Economy and Management), vol. 11, pp. 249–264, 2008.
[12] D. Russo, M. Dassisti, V. Lawlorb, A. G. Olabib, “State of the art of biofuels from pure plant oil”, Renewable and Sustainable Energy Reviews, vol. 16, pp. 4056–4070, 2012.
[13] L. Talens, G. Villalba, X. Gabarrell, “Exergy analysis applied to biodiesel production”, Resources, Conservation and Recycling, vol. 51, pp. 397–407, 2007.
[14] W. Liao, R. Heijungs, G. Huppes, “Is bioethanol a sustainable energy source? An energy-exergy-, and emergy-based thermodynamic system analysis”, Renewable Energy, vol. 36, pp. 3479–3487, 2011.
[15] U. A. Schneider, P. Smith, “Energy intensities and greenhouse gas emission mitigation in global agriculture”, Energy Efficiency, vol. 2, pp. 195–206, 2009.
[16] K. P. Singh, V. Prakash, K. Srinivas, A. K. Srivastva,. “Effect of tillage management on energy-use efficiency and economics of soybean (Glycine max) based cropping systems under the rainfed conditions in North-West Himalayan Region”, Soil & Tillage Research, vol. 100, pp. 78–82, 2008.
[17] F. Alluvione, B. Moretti, D. Sacco, C. Grignani, “EUE (energy use efficiency) of cropping systems for a sustainable agriculture”, Energy, vol. 36 pp. 4468–4481, 2011.
[18] N. D. Uril, “Conservation tillage and the use of energy and other inputs in US agriculture”, Energy Economics, vol. 20, pp. 389–410, 1998.
[19] O. Karkaciera, Z. Gokal Goktolgab, A. Cicek, “A regression analysis of the effect of energy use in agriculture”, Energy Policy, vol. 34, pp. 3796–3800, 2006.
[20] A. Muller, “Sustainable agriculture and the production of biomass for energy use”, Climatic Change, vol. 94, pp. 319–331, 2009.
[21] P. G. Meehan, J.M. Finnan, K. P. Mc Donnell, “A Comparison of the Energy Yield at the End User for Miscantus Giganteus Using Two Different Harvesting and Transport Systems”, BioEnergy Research, vol. 6, pp. 813–821, 2013.
[22] S. Kim, B. E. Dale, “Environmental aspects of ethanol derived from no-tilled corn grain: nonrenewable energy consumption and greenhouse gas emissions”, Biomass and Bioenergy, vol. 28, pp. 475–489, 2008.
[23] S. L. Smith, K. D. Thelen, S. J. MacDonald, “Yield and quality analyses of bioenergy crops grown on a regulatory brownfield”, Biomass and Bioenergy, vol. 49, pp. 123–130, 2013.
[24] S. Prasad, A. Singh, H. C. Joshi, “Ethanol as an alternative fuel from agricultural, industrial and urban residues”, Resources, Conservation and Recycling, vol. 50, pp. 1–39, 2007.
[25] M. Giampietro, S. Ulgiati, D. Pimentel, “Feasibility of Large-Scale Biofuel Production”, BioScience, vol. 47, pp. 87–600, 1997.
[26] A. Wasiak, O. Orynycz, “Formulation of a model for energetic efficiency of agricultural subsystem of biofuel production”, IEEE International Energy Conference: ENERGYCON’2014 Croatia, 2014, pp. 1333–1337.
[27] A. Wasiak, O. Orynycz, “The Effects of Energy Contributions into Subsidiary Processes on Energetic Efficiency of Biomass Plantation Supplying Biofuel Production System”, Agriculture and Agricultural Science Procedia, vol. 7, pp. 292–300, 2015.
[28] O. Orynycz, A. Wasiak, “The Influence of Tillage Technology on Available Energy from Rapeseed Plantation”, Materials, Methods & Technologies, vol. 10, pp. 2013–223, 2016.
[29] A. Wasiak, O. Orynycz, “Modelling of the dependence of energetic efficiency of biomass plantations upon energy fluxes going into subsidiary processes accompanying biomass production”, EUBCE, 23 rd European Biomass Conference and Exhibition, 1-4 June 2015, pp. 289-293.
[30] A. Wasiak, The effect of biofuel production on sustainability of agriculture, Biol Syst Open Access 5; 171, doi 17.4172/2329-6577.1000171

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