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Purpose: The main target is to produce as much biogas as possible with highest possible biomethane content from crops representing the principal fuel for driving the gas motors and electric generators and, consequently, production of electricity. Design/methodology/approach: The biogas production was measured by a mini digester according to the German standard DIN 38414, Part 8. It was effected in the mesophilic temperature range. The biogas production from six different energy crops and pig slurry was measured in the laboratory of the Faculty of Agriculture and Life Sciences. In six trial fields the monocultures such as maize, sorghum, amaranth, sunflower, Jerusalem artichoke and sugar beet were grown. Findings: The highest biomethane production was achieved with the sunflower substrate (283 Nl/kgVS), followed by the sorghum substrate (188 Nl/kgVS) and maize (187 Nl/kgVS). The amaranth substrate produced 225 Nl/kgVS and the Jerusalem artichoke 115 Nl/kgVS. The least amount of biomethane was produced from the sugar beet (95 Nl/kgVS). Research limitations/implications: The basic structure of the laboratory device is welded from stainless steel (inox) and is limited by the following dimensions: 2500 mm length, 1000 mm height and 350 mm width. The device consists of twelve units of fermentors ensuring four tests simultaneously with three replications and assuring high accuracy of results. Practical implications: The test fermentors serve to test the biogas production from different energy crops and other materials of organic origin. The results reached serve to plan the electricity production in the biogas production plant. Originality/value: The mini digesters simulated in laboratory the actual state from the biogas production plant. Anaerobic fermentation was introduced and the biogas to be processed into electricity was produced.
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Tom
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652--659
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Bibliogr. 16 poz., rys., tabl.
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autor
autor
autor
autor
autor
- Faculty of Agriculture and Life Sciences, University of Maribor, Pivola 10, 2311 Hoce, Slovenia, bogomir.mursec@uni-mb.si
Bibliografia
- [1] K. Navickas, Biogas for farming, energy conversion and environment protection, International symposium, Biogas, technology and environment, University of Maribor, Faculty of Agriculture, (2007) 25-29.
- [2] P. Weiland, Production and energetic use of biogas from energy crops and wastes in Germany, Applied Biochemistry and Biotechnology 109 (2003) 263–274.
- [3] D. P. Chynoweth, Biomethane from energy crops and organic wastes, Proceedings of the 10th World Congress on Anaerobic Digestion, Montreal, Canada, 2004, 525-530.
- [4] A. Ploj, B. Mursec, F. Cus, U. Zuperl, Characterization of machines for processing of waste materials, Journal of Materials Processing Technology 175/1-3 (2006) 338-343.
- [5] A. Tiehm, K. Nickel, M. Zellhorn, U. Neis, Ultrasonic waste activated sludge disintegration for improving anaerobic stabilization, Water Research 35 (2001) 2003-2009.
- [6] F. P. Gene, Fundamentals of anaerobic Environmental engineering 112 (1986) 867-920.
- [7] E. J. Cook, Anaerobic sludge digestion: Manual of practice No. 16, Alexandria VA: Water pollution control federation: Task force on Sludge stabilization, 1986.
- [8] H. Fredriksson, A. Baky, S. Bernesson, L. Nordberg, O. Noren, P. Hansson, Use of on-farm produced biofuels on organic farms - Evaluation of energy balances and environmental loads for three possible fuels, Agricultural Systems 89 (2006) 184-203.
- [9] A. Bonmati, X. Flotats, L. Mateu, E. Campos, Study of thermal hydrolysis as a pretreatment to mesophilic anaerobic digestion of pig slurry, Water Science Technology 4/44 (2001) 109-116.
- [10] B. Mursec, M. Janzekovic, F. Cus, U. Zuperl, Comparison of rollers after sowing of buckwheat, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 269-272.
- [11] J. Garvas, Biogas, http://www.ee.uni-lj.si /VOOVE/ekskurzija_2007/system/bioplin.pdf, University of Ljubljana, Faculty of Mechanical Engineering.
- [12] DIN 38 414, Determination of digestion behaviour ‘‘sludge and sediments’’, Beuth Verlag, Berlin, 1985 (in German).
- [13] P. Vindis, B. Mursec, C. Rozman, M. Janzekovic, F. Cus, Biogas production with the use of mini digester, Journal of Achievements in Materials and Manufacturing Engineering 26 (2008) 99-102.
- [14] D. Stajnko, M. Brus, M. Hocevar, Estimation of bull live weight through thermographically measured body dimensions, Computers and Electronics in Agriculture 2/61 (2008) 233-244.
- [15] B. Mursec, F. Cus, Integral model of selection of optimal cutting conditions from different databases of tool makers, Journal of Materials Processing Technology 133 (2003) 158-165.
- [16] T. Amon, B. Amon, V. Kryvoruchko, W. Zollitsch, K. Mayer L. Gruber, Biogas production from maize and dairy cattle manure - Influence of biomass composition on the methane yield, Agriculture, Ecosystems and Environment 118 (2007) 173-182.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BOS2-0021-0073