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Wpływ sposobu wstępnego preparowania odpadów poubojowych na ilość i skład powstającego biogazu w warunkach fermentacji termofilowej

Treść / Zawartość
Identyfikatory
Warianty tytułu
EN
Effect of method of post-slaughter waste conditioning on amount and composition of biogas produced in thermophilic fermentation
Języki publikacji
PL
Abstrakty
PL
Celem prezentowanych badań było określenie takiego sposobu wstępnego przygotowania, stosowanych w eksperymencie odpadów poubojowych, który zapewni uzyskanie najwyższych efektów technologicznych charakteryzowanych poprzez ilość oraz skład jakościowy powstającego biogazu w warunkach fermentacji termofilowej.
EN
The aim of this study was to identify the method of pre-treatment of post-slaughter waste used in the experiment to ensure the best technological results, expressed by the amount and qualitative composition of the biogas produced in the process. The application of various methods of processing of postslaughter waste before methane fermentation in an experiment conducted under static conditions showed that comparable technological effects were achieved when homogenisation followed by pasteurisation was applied and in such series inwhich these were supplemented by sonic treatment of the substrate. The application of various methods of processing of post-slaughter waste before methane fermentation in an experiment conducted under static conditions showed that comparable technological effects were achieved when homogenisation followed by pasteurisation was applied and in such series in which these were supplemented by sonic treatment of the substrate. Regardless of the pasteurisation time and the combined time of pasteurisation andultrasonic treatment, no statistically significant differences were found in the technological results achieved in terms of the amount and composition ofthe biogas produced in the process and the degree of decomposition of the analysed organic compounds. The worst final results of methane fermentation of post-slaughter waste were achieved when homogenisation was the only type of treatment applied in the organic substrate pre-processing. When homogenisation was combined with ultrasonic treatment, significantly better results were achieved; these were, however, distinctly lower than those achieved in the series in which pasteurisation was applied. The element which most greatly affected the technological effects achieved in the experiment, was the load of organic matter applied to the activatedsludge. The lowest effectiveness of the process, regardless of the method of conditioning of post-slaughter waste, was achieved in the option with a load of 6.0 g of dry organic matter/g of dry matter of sludge. The results achieved in static conditions with loads ranging from 1.0 g of dry organic matter/g of dry matter of sludge to 3.0 g of dry organic matter/g of dry matter of sludge producedcomparable final results, expressed as the amount and composition of biogas as well as the degree of decomposition of the analysed organic substances.
Rocznik
Tom
Strony
895--907
Opis fizyczny
bibliogr. 15 poz.
Twórcy
autor
  • Uniwersytet Warmińsko-Mazurski, Olsztyn
Bibliografia
  • 1. Beal L.J., Raman D.R.: Sequential two-stage anaerobic treatment of confectionery wastewater. J. Agric. Engng. Res. 76, 211-217, 2000.
  • 2. Bouallagui H., Lahdheb H., Ben Romdan E., Rachdi B., Hamdi M.:Improvement of fruit and vegetable waste anaerobic digestion performance and stability with co-substrates addition. J. Env. Management. 90 (5), 1844-1849, 2009.
  • 3. Chu C., Chang B., Liao G., Jean D., Lee D.: Observations on changes in ultrasonically treated waste-activated sludge. Wat. Res. 35 (4), 1038-1046, 2001.
  • 4. Gonze D., Halloy J., Leloup J.C., Goldbeter A.: Stochastic models for circadian rhythms: effect of molecular noise on periodic and chaotic behavior. C. R. Biologies. 326, 189-203, 2003.
  • 5. Haug, T.R., LeBrun, J.T., Tortorici, D.L.: Thermal pretreatment of sludges – a field demonstration. J. Wat. Pol. Contr. Fed. 55 (1), 23-34, 1983.
  • 6. Haug, T.R., Stuckey, C.D.: Effect of thermal pretreatment on digestibility and dewagerability of organic sludges. J. Wat. Pol. Contr. Fed. 50, 73-85, 1983.
  • 7. Lajapathi C.R., Struenkmann G., Mueller J., Gangadhar R.P.: Influence of ultrasonic disintegration on sludge growth reduction and its estimation by respirometry. Env. Sci. Technol. 38 (22), 5779-5785, 2004.
  • 8. Li H., Noike N.: Upgrading of anaerobic digestion of waste activated sludge by thermal pre-treatment. Wat. Sci. Tech. 26, 857-866, 1992.
  • 9. Monroy O., Famà G., Meraz M., Montoya L., Macarie H.: Anaerobic digestion for wastewater treatment in Mexico: state of the technology. Wat. Res. 34 (6), 1803-1816, 2000.
  • 10. Onyeche T.I., Schläfer O., Bormann H., Schröder C., Sievers M.: Ultrasonic cell disruption of stabilised sludge with subsequent anaerobic digestion. Ultasonics. 40, 1-8, 2002.
  • 11. Pinnekamp J.: Effects of thermal pretreatment of sewage sludge on anaerobic digestion, Wat. Sci. Technol. 21, 97-108, 1989.
  • 12. Salsabil M.R., Prorot A., Casellas M., Dagot C.: Pre-treatment of activated sludge: Effect of sonication on aerobic and anaerobic digestibility. Chem. Enging. J. 148, (2-3), 327-335, 2009.
  • 13. Sonakya V., Raizada N., Kalia V. C.: Microbial and enzymatic improvement of anaerobic digestion of waste biomass. Biotechnol. Letters. 23 (18), 1463-1466, 2001.
  • 14. Tiehm A., Nickel K., Zellhorn M., Neis U.: Ultrasonic waste activated sludge disintegration for improving anaerobic stabilization. Wat. Res. 35 (8), 2003-2009, 2001.
  • 15. Zhang G., Zhang P., Yang J., Liu H.: Energy-efficient sludge sonication: Power and sludge characteristics. Biores. Technol. 99 (18), 9029-9031, 2008.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW9-0014-0120
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