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Wybrane metody wstępnej obróbki surowców roślinnych stosowanych do produkcji biogazu

Treść / Zawartość
Identyfikatory
Warianty tytułu
EN
Selected methods of vegetable raw material pre-treatment used in biogas production
Języki publikacji
PL
Abstrakty
EN
An agricultural waste substrates such as rape straw, hay, corn stover, or other types of green fodder (grass residues) are not utilized in many farms and go to the waste, which finally goes to the soil. Therefore, it is very important to appropriately manage these substrates, for example, in methane fermentation process for the biogas production. During the process of methane fermentation in agricultural biogas plant, mentioned biomass substrates are decomposed only in a small extent. The low biodegradability of straw and grasses is related to their chemical structure. The composition of this materials includes cellulose and hemicellulose compounds surrounded with the lignin polymers (hence, in the literature the name of lignocellulosic biomass is used), which is not digested in this form by enzymes of the methane bacteria. It is assumed that a suitable technological pretreatment of the batch (by micronization or steam explosion) may significantly improve the methane fermentation process with little additional energy and cost inputs. The aim of the study is to discuss the impact of selected pretreatment technologies of vegetable raw material plant for the production of biogas and to provide energy and economic balance of the proposed methods. Studies were conducted basing of foreign literature reports (in Poland not yet published research in the field of mechanical and thermal pre-treatment of plant biomass) and also based on knowledge and own research.
Rocznik
Tom
Strony
130--144
Opis fizyczny
Bibliogr. 46 poz., tab., rys.
Twórcy
autor
  • Uniwersytet Przyrodniczy w Poznaniu Instytut Technologii Żywności Pochodzenia Roślinnego ul. Wojska Polskiego 31, 60-624 Poznań
  • Uniwersytet Przyrodniczy w Poznaniu Instytut Technologii Żywności Pochodzenia Roślinnego ul. Wojska Polskiego 31, 60-624 Poznań
autor
  • Uniwersytet Przyrodniczy w Poznaniu Instytut Technologii Żywności Pochodzenia Roślinnego ul. Wojska Polskiego 31, 60-624 Poznań
Bibliografia
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  • Bruni E., Jensen A.P., Angelidaki I., Comparative study of mechanical, hydrothermal, chemical and enzymatic treatments of digested biofibers to improve biogas production, “Bioresource Technology” 2010 nr 101
  • Camire M.E., Chemical changes during extrusion cooking: recent advances, w: F. Shahidi, C.-T. Ho, N. van Chuyen (red.), Process-induced chemical changes in food, Plenum Press, New York 1998
  • Castro F.B., Hotten P.M., Ørskov E.R., Rebeller M., Inhibition of rumen microbes by compounds formed in the steam treatment of wheat straw, “Bioresource Technology” 1994 nr 50
  • Cirne D.G., Lehtomäki A., Björnsson L., Blackall L.L., Hydrolysis and microbial community analyses in two-stage anaerobic digestion of energy crops, “Journal of Applied Microbiology” 2007 nr 103
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  • Gebrezgabher S.A., Meuwissen M.P.M., Prins B.A.M., Lansink A.G.J.M.O., Economic analysis of anaerobic digestion – a case of green power biogas plant in The Netherlands, “NJAS – Wageningen Journal of Life Sciences” 2010 nr 57
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  • Izumi K. i in., Effects of particle size on anaerobic digestion of food waste, “International Biodeterioration and Biodegradation” 2010 nr 64
  • Januszewski D., Oszacowanie wielkości powierzchni zasiewów pod kukurydzę przeznaczoną na pozyskanie kiszonki do produkcji biogazu rolniczego w Polsce, „Ekonomia i Środowisko” 2013 nr 2
  • Kaparaju P. i in., Co-digestion of energy crops and industrial confectionery by-products with cow manure: batch scale and farm-scale evaluation, “Water Science and Technology” 2002 nr 45
  • Karunanithy C., Muthukumarappan K., Influence of extruder temperature and screw speed on pretreatment of corn stover while varying enzymes and their ratios, “Applied Biochemistry and Biotechnology” 2010 nr 162
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  • Kreuger E. i in., Bioconversion of industrial hemp to ethanol and methane: the benefits of steam pretreatment and co-production, “Bioresource Technology” 2011 nr 102
  • Li X. i in., Optimization of steam-pretreatment conditions for corn stover using response surface methodology, w: Sun R.C., Fu S.Y. (red.), “Research progress in paper industry and biorefinery (4TH ISETPP)” 2010 nr 1-3
  • Menardoa S., Cacciatorea V., Balsaria P., Batch and continuous biogas production arising from feed varying in rice straw volumes following pre-treatment with extrusion, “Bioresource Technology” 2015 nr 180
  • Novarino D., Zanetti M.C., Anaerobic digestion of extruded OFMSW, “Bioresource Technology” 2012 nr 104
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  • Pilarska A. i in., Impact of additives on biogas efficiency of sewage sludge, “Agricultural Engineering” 2014 nr 3
  • Pilarska A. i in., Preliminary research on thermal treatment of maize silage on biogas production, “Science Nature Technologies” 2015 nr 2
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  • Sambusiti C. i in., A comparison of different pre-treatments to increase methane production from two agricultural substrates, “Applied Energy” 2013 nr 104
  • Sassner P., Galbe M., Zacchi G., Techno-economic evaluation of bioethanol production from three different lignocellulosic materials, “Biomass Bioenergy” 2008 nr 32
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  • Simona M., Gianfranco A., Jody G., Paolo B., Energetic assessment of extrusion as pre-treatment to improve the anaerobic digestion of agricultural lignocellulosic biomasses, 2013
  • Sun Y., Cheng J.J., Hydrolysis of lignocellulosic materials for ethanol production: a review, “Bioresource Technology” 2002 nr 83
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  • Uellendahl H. i in., Energy balance and cost-benefit analysis of biogas production from perennial energy crops pretreated by wet oxidation, “Water Science and Technology” 1998 nr 58
  • Wang J. i in., Anaerobic digestibility and fiber composition of bulrush in response to steam explosion, “Bioresource Technology” 2010 nr 101
  • Williams B.A., van der Poel A.F.B., Boer H., Tamminga S., The effect of extrusion conditions on the fermentability of wheat straw and corn silage, “Journal of the Science of Food and Agriculture” 1997 nr 74
  • Witaszek K., Pilarski K., Czekała W., Mazur R., Rules for selection of substrates for agricultural biogas plants, “Instal” 2013 nr 5
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  • www.ramiran.net
  • Zhan X. i in., Ethanol production from supercritical-fluid-extrusion cooked sorghum, “Industrial Crops Products” 2006 nr 23
  • Zheng Y., Zhao J., Xu F., Li Y., Pretreatment of lignocellulosic biomass for enhanced biogas production, “Progress in Energy and Combustion Science” 2014 nr 42
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1cbfb182-d631-4974-830f-a4ca9ed7e5bf
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