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More extensive development of biodiesel production is hampered by a relatively high production cost of this product. Together with external measures (organization of optimal production, minimization of transport costs, etc.) it is necessary to use the by-products of biodiesel as rationally as possible to reduce the production cost. The work deals with the possibilities of using by-products (rapeseed straw, oilcake and glycerol) for energy needs and is based on experiments. The experiments established fractional compositions, thermal properties and dependences of rapeseed oil, oilcake and crude glycerol. Equilibrium moisture content of rapeseed straw, keeping them in a closed room, is 15% and heating value is 17.5š1.9 MJ/kg; the heating value of cold-pressed oilcake with 8-10% of oil is 19.8š2.0 MJ/kg; the water content in green glycerol composition accounts to 12.5š0.6%, the one of methanol is 0.3š0.03_ and their heating value is 22.1š1.7 MJ/kg. The research proved that the use of green glycerol while mixing it with sawdust and pressing is an efficient way to produce fuel. It was established that after adding 80% of crude glycerol to dust, the heating value of dry sawdust increases by 22-23% and the heating value of 8% moisture content sawdust increases by 31-32%. The amount of nitrogen oxides NOx in fume does not exceed the permissible limit - 650 mg/m3, CO amount in fume is minimal as is the amount of free oxygen and only traces of sulphur dioxide are found in the fume.
Rocznik
Tom
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14--18
Opis fizyczny
Bibliogr. 24 poz.
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autor
autor
- Institute of Agroengineering, Faculty of Agricultural Engineering, Aleksandras Stulginskis University Instituto str. 20, Raudondvaris, LT-54132 Kaunas reg., Lithuania, algirdas.jasinskas@asu.lt
Bibliografia
- [1] Sendzikiene, E.; Makareviciene, V.; Janulis, P.; Makarevici-ute, D.: Biodegradability of biodiesel fuel of animal and vegetable origin. European Journal of Lipid Science and Technology. 2007, 109(5), 493-497.
- [2] Weip, J.: Einsatz von Rapsextraktionsshrot und Rapskuchen in der Schweinefutterung aus deutscher Sicht. Der Litauisch -Deutsche Rapstag. Beirtage zur Tagung. Kaunas - Akademi-ja,28Mai, 2001, s. 51-56.
- [3] Jatkauskas, J.; Vrotniakiene V.: Rapeseed products on cattle rations. The first Lithuanian - German rape day: a collection of articles. Kaunas - Akademija, 28 May 2001, p.p. 80-86.
- [4] Schone, F.: Rapsol - ein wertvolles Nahrungsmittel fur eine gesundheitsbewusste Ernahrung und eine Futterkomponente zur Verbesserung der Milch-und Eiqualitat. Der Litauich-Deutsche Rapstag. Beirtage zur Tagung. Kaunas-Akademija, 28Mai2001,s.60-68.
- [5] Jeroch, H.; Seskeviciene, J.; Mikulioniene, S.: The factors influencing rape and its feed value processing products. The first Lithuanian - German rape day: a collection of articles. Kaunas - Akademija, 28 May 2001, p.p. 20-24.
- [6] Koseoglu, S.; Sun., S.; Chau, F.: Oilseeds. Food, Feed and Industrial. Food Protein Research and Development Center, Texas, 1993, p.p. 47-62.
- [7] Lebedevas, S.; Vaicekauskas, A.; Lebedeva, G.; Makareviciene, V.; Janulis, P.: Change in Operational Characteristics of Diesel Engines Running on RME Biodiesel Fuel. Energy & Fuels. 2007, 21(5), 3010-3016.
- [8] Nachwachsende Rohstoffe. Moglichkeiten und Chancen fur den Industrine - und Energiepflanzenanbau. Landwirtchfts-kammer. Hannover, 1997, 54 s.
- [9] Avizienis, V.; Makareviciene, V.; Janulis, P.: Biotechnology of oil extraction from rapeseed. Agricultural Engineering: Research works of LUA IAI and LUA. 1999, 31 (2), 65-74.
- [10] Spring oilseed rape cultivation. Lithuanian Institute of Agriculture, Vilnius, 1998, 66 p.
- [ll] Pokorny, Z.: Use of selected plant production to industrial and power generation purposes. Research Institute of Agricultural Engineering, Prague, 1996, p.p. 43-50.
- [12] Plesis, L. M.; Villiers, J. B.: J.Amer.Oil Chem. Soc. 1985, 62(4), 748-751.
- [13] Janulis, P.; Makareviciene, V.: Research of spring oilseed rape cultivation. Energetics in Agriculture. Kaunas-Akademija, 1999, 1(4), 98-104.
- [14] Conneman, J.: International Liquid Biofuels Congress. Curitiba, 1998, p.p. 49-51.
- [15] Janulis, P.; Makarevićiene, V.: Biodiesel fuel – Quality and Technology. Agroengineering and Energetics. Kaunas, 2000, 3, 8-13.
- [16] Uses for Methyl Esters, Glycerol//www.biodiesel.org.
- [17] Seperating glicerine /FFAS: Journey to Forever //http://journeytoforever.org/bioddiesel-glysep.html.
- [18] Formo, M. W. J.: Amer. Oil Chem. Soc. 1954, 31, 548-559.
- [19] Kara, J.: Possibilities and contribution to biomass combustion in Czech Republic. Pardubice, 1996, s.15-24.
- [20] Hahn, B.; Pölten, S.: Rohstoffpotenzial für Pellets. Nachwachsende Rohstoffe. BLT Wieselburg, 2002, 26, s. 6.
- [21] ISO 2099:1972. Purified glycerol for industrial use – Determination of density at 20 degrees.
- [22] ISO 2097:1972. Glycerol’s for industrial use-Determination of water content – Kaarl Fischer method.
- [23] EN14103:2003. Fat and oil derivatives – Fatty acid methyl esters (FAME) –Determination of ester and linotenic acid methyl ester contents.
- [24] The standards of emissions from the plant combustion implements LAND43-20. National Standards, 2001, 88, p.p. 50-53.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAR8-0020-0003