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Evaluation of the potential of utilizing lactic acid bacteria and dairy wastewaters for methane production

 
: Juodeikiene, Grazina; Cizeikiene, Dalia; Glasner, Christoph; Bartkiene, Elena; Dikiy, Alexander; Shumilina, Elena; Ilic, Nebojsa; Berardino, Santino di; Foncesa, Cesar

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Volltext urn:nbn:de:0011-n-4389653 (468 KByte PDF)
MD5 Fingerprint: 1bced46a6bd4d3d443fd702f91dac0c7
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Erstellt am: 7.4.2017


Energy exploration & exploitation : EEE 35 (2017), Nr.3, S.388-402
ISSN: 0144-5987
ISSN: 2048-4054
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer UMSICHT Oberhausen ()
bio methane; dairy wastewater; dairy industry sustainability; nuclear magnetic resonance; biological oxygen demand; chemical oxygen demand

Abstract
The aim of this study was to assess the potential of utilizing Lactobacillus delbrüeckii spp. bulgaricus in order to improve the characteristics of dairy wastewater and produce biomethane. Nuclear magnetic resonance was utilized to assess the metabolites present in the unprocessed wastewater. It was determined that wastewater is a good source of important bio-refinery relevant compounds and therefore wastewater has a potential to be utilized during fermentation as nutrients source. Upon wastewater fermentation, the chemical oxygen demand and biological oxygen demand significantly decreased (respectively 97.0 and 97.8%). Protocols were tested for one- and two-stage fermentation. During the one-stage fermentation, lactic acid bacteria were not added to the wastewater. During the two-stage fermentation, acetogenesis and methanogenesis occurred separately with the addition of L. delbdueckii during the acetogenesis stage. The highest yield of methane was obtained from wastewater upon two-stage fermentation (76% two-stages compared to 38% one-stage). Therefore, L. delbrüeckii have the potential to be utilized to ferment dairy WWs and produce methane. Such treatment of wastewater not only produces methane, but also decreases the polluting effect of the waste streams, by reducing the chemical oxygen demand and biological oxygen demand to 0.199 and 0.031 g/l, respectively.

: http://publica.fraunhofer.de/dokumente/N-438965.html