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Content with label microorganisms in REBEL WP7: Bioenergy (See content from all spaces)
Related Labels: butanol, abe-fermentation, metabolism, biobutanol, hydrolysis, bioenergy, anaerobic, energy-gain, biogas, bacteria, metabolic-pathway, acetogenesis, figure, process-optimization, methanogenic-bacteria, fermentation, substrate, strain, development, more »

Page: Development of biogas
conversion of biomass to biogas can be classified into four phases. In every phase there are specific microorganisms, which are working in interaction among themselves to metabolize the organic matter to build gas. The phases of biogas development are shown in Figure 3. !composed, particular substrates.JPG
Other labels: biogas, development, biogas-production, bioenergy, acidification, hydrolysis, substrate, biomass-conversion
Page: Hydrogen-producing microorganisms
Several bacteria from different genera are able to produce hydrogen. Major group constitute stringent anaerobic microorganisms, such as clostridia, paunch bacteria or hyperthermophilic archae bacteria. Additionally, facultative anaerobe, e.g. enterobacter, e.coli or citrobacter can produce hydrogen ...
Other labels: bacteria, hydrogen-production, hydrogen, bioenergy, figure, narrative-text
Page: Methanogenesis
last but most important step of generating biogas. Methane can be metabolized out of acetic acid (CH{}3{}COOH), H{}2 and CO{}2, methanol of methylene (CH{}3{}NH{}3). Responsible microorganisms are methanogenic bacteria. They are strictly ...
Other labels: biogas, development, biogas-production, hydrogen, bioenergy, methanogenic-bacteria, substrate, methane
Page: Methods of process optimization
several approaches for optimization of thermophilic dark fermentation: Substrate Promising substrates contain carbohydrates and should be achieved from sustainable sources. They should enclose enough energy for enabling fermentative conversion to hydrogen. Additionally, substrates should not require any pretreatment ...
Other labels: dark-fermentation, hydrogen-production, hydrogen, bioenergy, process-optimization, narrative-text
Page: Microorganisms for ABE fermentation
Microorganisms for ABE fermentation are especially sacchrolytic butyric acid producing clostridia. Clostridium acetobutylicum is the most popular and extensively implemented strain. Some other butanol producing strains are C. aurantibutyricum (produces acetone, isopropanol in addition to butanol), C. tetanomorphum ...
Other labels: anaerobic, fermentation, metabolism, butanol, biobutanol, bioenergy, strain, clostridia
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