Wytwarzanie wodoru i metanu z odpadów z produkcji biopaliw

• Autorzy: Zamojska-Jaroszewicz A. , Szewczyk K. W.

Warianty tytułu

EN

Production of hydrogen and methane from biofuels waste

• Języki publikacji: PL

Abstrakty

PL

EN

• Wydawca: -
• Czasopismo: Nauka Przyroda Technologie. Uniwersytet Przyrodniczy w Poznaniu
• Rocznik: 2011
• Tom: 05
• Numer: 4
• Opis fizyczny: http://www.npt.up-poznan.net/pub/art_5_51.pdf

Twórcy

autor

Zamojska-Jaroszewicz A.

• Wydział Inżynierii Chemicznej i Procesowej, Politechnika Warszawska, Warszawa

autor

Szewczyk K. W.

• Wydział Inżynierii Chemicznej i Procesowej, Politechnika Warszawska, ul.Waryńskiego 1, 00-645 Warszawa

Bibliografia

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• CHANG J.J., WU J.H., WEN F.S., HUNG K.Y., CHEN Y.T., HSIAO C.L., LIN C.Y., HUANG C.C., 2008. Molecular, monitoring of microbes in a continuous hydrogen-producing system with different hydraulic retention time. Int. J. Hydrogen Energy 335: 1579-1585.
• CHEN C.C., LIN C.Y., CHANG J.S., 2001. Kinetics of hydrogen production with continuous anaerobic cultures utilizing sucrose as the limiting substrate. Appl. Microbiol. Biotechnol. 57, 1: 56-64.
• COLLET C., ADLER N., SCHWITZGUÉBEL J.P., PÉERINGER P., 2004. Hydrogen production by Clostridium thermolacticum during continuous fermentation of lactose, Int. J. Hydrogen Energy 29, 14: 1479-1485.
• COONEY M., MAYNARD N., CANNIZARO C., BENEMANN J., 2007. Two-phase anaerobic digestion for production of hydrogen–methane mixtures. Bioresource Technol. 98, 14: 2641-2651.
• FOUNTOULAKIS M.S., MANIOS T., 2009. Enhanced methane and hydrogen production from municipal solid waste and agro-industrial by-products co-digested with crude glycerol. Bioresource Technol. 100, 12: 3043-3047.
• KOUTROULI E.C., KALFAS H., GAVALA H.N., SKIADAS I.V., STAMATELATOU K., LYBERATOS G., 2009, Hydrogen and methane production through two-stage mesophilic anaerobic digestion of olive pulp. Bioresource Technol. 100, 15: 3718-3723.
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• REN N.Q., TANG J., LIU B.F., GUO W.Q., 2010. Biological hydrogen production in continuous stirred tank reactor systems with suspended and attached microbial growth. Int. J. Hydrogen Energy 35, 7: 2807-2813.
• SILES LÓPEZ J.Á., MARTÍN SANTOS M.Á., CHICA PÉREZ A.F., MARTÍN M.A., 2009. Anaerobic digestion of glycerol derived from biodiesel manufacturing, Bioresource Technol. 100, 23: 5609-5615.
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• SZEWCZYK K.W., 2007. Techniczne podstawy hodowli drobnoustrojów w bioreaktorach. W: Podstawy biotechnologii przemysłowej. Red. W. Bednarski, J. Fiedurek. WNT, Warszawa: 119-206.
• SZEWCZYK K.W., 2008. Biologiczne wytwarzanie wodoru. Post. Mikrobiol. 47, 3: 241-247.
• SZEWCZYK K.W., NOWAKOWSKI T., 2009. Mikrobiologiczne wytwarzanie wodoru z glicerolu. Inż. Aparat. Chem. 3: 113-114.
• VENETSANEAS N., ANTONOPOULOU G., STAMATELATOU K., KORNAROS M., LYBERATOS G., 2009. Using cheese whey for hydrogen and methane generation in a two-stage continuous process with alternative pH controlling approaches. Bioresource Technol. 100, 15: 3713-3717.
• VENKATA MOHAN S., MOHANAKRISHNA G., SARMA P.N., 2008. Integration of acidogenic and methanogenic processes for simultaneous production of biohydrogen and methane from wastewater treatment. Int. J. Hydrogen Energy 33, 9: 2156-2166.
• XING D., REN N., WANG A., LI Q., FENG Y., MA F., 2008, Continuous hydrogen production of auto-aggregative Ethanoligenens harbinense YUAN-3 under non-sterile condition. Int. J. Hydrogen Energy 33, 5: 1489-1495.
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Uwagi

PL

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