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2017 | 26 | 3 |

Tytuł artykułu

Biohydrogen and biomethane (biogas) production in the consecutive stages of anaerobic digestion of molasses

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Anaerobic digestion, whose final products are methane and carbon dioxide, has been used to produce biogas from waste biomass as an alternative energy source. For the purpose of innovative, modern technologies based on microbial processes, it is desirable to separate the hydrogen- (hydrolysis and acidogenesis) and methane-yielding (acetogenesis and methanogenesis) stages of anaerobic digestion to respectively favor the production of hydrogen and methane under controlled conditions. Previously, we developed a benchscale (3- and 3.5-litre bioreactors) two-stage anaerobic digestion system producing hydrogen (in stage 1) and methane (in stage 2) from sucrose-rich by-products of the sugar beet refining industry as the primary energy substrates under mesophilic conditions. Recently, the two-stage system for hydrogen and methane production has been successfully scaled up 10-fold (a pilot scale) and currently operates in one of the Polish sugar factories. The efficiency of hydrogen and methane production were directly proportional to the scale of installation. The obtained results led to the development objectives of further research that the end result will be an innovative solution for the sugar factory as a producer of gaseous biofuels.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

26

Numer

3

Opis fizyczny

p.1023-1029,fig.,ref.

Twórcy

autor
  • Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Pawinskiego 5a, 02-106 Warsaw, Poland
autor
  • Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Pawinskiego 5a, 02-106 Warsaw, Poland
autor
  • Faculty of Agriculture and Biology, Warsaw University of Life Sciences, Nowoursynowska 159, 02-776 Warsaw, Poland
  • Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Pawińskiego 5a, 02-106 Warsaw, Poland
  • Krajowa Społka Cukrowa S.A. Biuro w Warszawie, Jana Pawła II 12, 00-124 Warsaw, Poland
autor
  • Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Pawinskiego 5a, 02-106 Warsaw, Poland

Bibliografia

  • 1. THAUER R.K., KASTER A.-K., SEEDORF H., BUCKEL W., HEDDERICH R. Methanogenic Archaea: ecologically relevant differences in energy conservation. Nat. Rev. Microbiol. 6 (8), 579, 2008.
  • 2. LIU Y., WHITMAN W. B. Metabolic, phylogenetic, and ecological diversity of the methanogenic archaea. Ann. N Y Acad. Sci. 1125 (1), 171, 2008.
  • 3. DEMIREL B., SCHERER P. The roles of acetotrophic and hydrogenotrophic methanogens during anaerobic conversion of biomass to methane: a review. Rev. Environ. Sci. Biotechnol. 7 (2), 173, 2008.
  • 4. STAMS A.J.M., PLUGGE C.M. Electron transfer in syntrophic communities of anaerobic bacteria and archaea. Nat. Rev. Microbiol. 7 (8), 568, 2009.
  • 5. SIEBER J.R., McINERNEY M.J., GUNSALUS R.P. Genomic insight into syntrophy: the paradigm for anaerobic metabolic cooperation. Annu. Rev. Microbiol. 66, 429, 2012.
  • 6. LEE S.-H., PARK J.-H., KIM S.-H., YU B.J., YOON J.-J., PARK H.-D. Evidence of syntrophic acetate oxidation by Spirochaetes during anaerobic methane production. Bioresour. Technol. 190, 543, 2015.
  • 7. HALLENBECK P.C., GHOSH D. Advances in fermentative biohydrogen production: the way forward? Trends Biotechnol. 27 (5), 287, 2009.
  • 8. LEE H.S, VERMAAS W.F.J., RITTMANN B.E. Biological hydrogen production: prospects and challenges. Trends Biotechnol. 28 (5), 262, 2010.
  • 9. PARK M.J., JO J.H., PARK D., LEE D.S., PARK J.M. Comprehensive study on a two-stage anaerobic digestion process for the sequential production of hydrogen and methane from cost-effective molasses. Int. J. Hydrogen Energy 35 (12), 6194, 2010.
  • 10. GUWY A.J., DINSDALE R.M., KIM J.R., MASSANET-NICOLAU J., PREMIER G. Fermentative biohydrogen production systems integration. Bioresour. Technol. 102 (18), 8534, 2011.
  • 11. CHOJNACKA A., SZCZĘSNY P., BŁASZCZYK M.K., ZIELENKIEWICZ U., DETMAN A., SALAMON A., SIKORA A. Noteworthy acts about a methane-producing microbial community processing acidic effluent from sugar beet molasses fermentation. PLoS One 10 (5), e0128008, 2015.
  • 12. CHOJNACKA A., BŁASZCZYK M.K., SZCZĘSNY P., NOWAK K., SUMIŃSKA M., TOMCZYK-ŻAK K., ZIELENKIEWICZ U., SIKORA A. Comparative analysis of hydrogen-producing bacterial biofilms and granular sludge formed in continuous cultures of fermentative bacteria. Bioresour. Technol. 102 (21), 10057, 2011.
  • 13. MILLER J.H. Experiments in Molecular Genetics. Cold Spring Harbor Laboratory, Cold Spring Harbor, NY, USA, 431, 1972.
  • 14. LI C., ZHANG T., FANG H.H. Fermentative hydrogen production in packed-bed and packing-free upflow reactors. Water Sci. Technol. 54 (9), 95, 2006.
  • 15. SCHMIDT F.R. Optimization and scale up of industrial fermentation processes. Appl. Microbiol. Biotechnol. 68 (4), 425, 2005.
  • 16. FORMENTI L.R., NORREGAARD A., BOLIC A., HERNANDEZ D.Q., HAGEMANN T., HEINS A.-L., LARSSON H., MEARS L., MAURICIO-IGLESIAS M., KRUHNE U., GERNAEY K.V. Challenges in industrial fermentation technology research. Biotechnol. J. 9 (6), 727, 2014.
  • 17. HALLENBECK P.C. Fundamentals of the fermentative production of hydrogen. Water Sci. Technol. 52 (1-2), 21, 2005.
  • 18. KRAEMER J.T., BAGLEY D.M. Improving the yield from fermentative hydrogen production. Biotechnol. Lett. 29 (5), 685, 2007.
  • 19. CHENG X.Y., LI Q., LIU C.Z. Coproduction of hydrogen and methane via anaerobic fermentation of cornstalk waste in continuous stirred tank reactor integrated with up-flow anaerobic sludge bed. Bioresour. Technol. 114, 327, 2012.
  • 20. SIKORA A., BŁASZCZYK M.K., JURKOWSKI M., ZIELENKIEWICZ U. Lactic acid bacteria in hydrogen producing consortia: on purpose or by coincidence. In Lactic acid bacteria - R & D for food, health and livestock purposes. M. Kongo, Ed., InTech, Rijeka, 487, 2013.
  • 21. PIELA P., TOKARZ W., KAŹMIERCZAK W., DETMAN A., SIKORA A., PIOTROWSKI J. The use of hydrogen-rich gas obtained from dark fermentation of molasses from sugar industry for fueling a fuel cell. Przemysl Chemiczny 95 (5), 1000, 2016.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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