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Content with label technology in REBEL WP7: Bioenergy (See content from all spaces)
Related Labels: table, butanol, environmental-impact, abe-fermentation, cell-immobilization, feedstock, biobutanol, bioethanol, renewable-energy, bioenergy, bulk-chemical, classification, extraction, ethanol, metabolic-engineering, figure, energy-production, continuous-fermentation, pervaporation, more »

Page: Biobutanol Processing
Butanol is an important bulk chemical with a wide range of possibilities for subsequent processing and use. Butanol has been produced almost exclusively via petrochemical ways since 1950. At that time common fermentation techniques were displaced because of low ...
Other labels: biofuel, butanol, biobutanol, bioenergy, environmental-impact, process, energy-content, bulk-chemical
Page: Bioethanol Processing
use and combustion of fossil fuels is responsible for 73 % of the CO{}2 production in the atmosphere and therefore extremely contributes to global warming, the interest in the development of methods, reducing green house gases, has been increased enormously. In order to control such emissions, many ...
Other labels: biomass, renewable-energy, fuel-properties, bioethanol-production, sources-of-energy, ethanol, feedstock, bioethanol
Page: Bioethanol production of 1st generation
Today, maize and sugar cane are the major feedstocks for world´s ethanol production with more than 50 billion litres of ethanol per year. In figure 1 and table 1, possible starchrich and sugarrich feedstocks for ethanol production, as well as their feedstock characteristics ...
Other labels: bioethanol-production, feedstock, bioethanol, bioenergy, figure, table
Page: Fermentation technologies
traditional and most common fermentation technology is the so called batch fermentation but this technique often results in low reactor productivity so a lot of investigation in novel fermentation systems for butanol production was done in the last few years. Free cell continuous ...
Other labels: butanol, bioenergy, product-recovery, reactor, extraction, gas-stripping, butanol-production, pervaporation
Page: Pre-treatment
Firstly, lignocellulosic material has to be sizereduced and pretreated for alteration and removal of structural and compositional impediments (physical disruption) to hydrolysis. Therefore, the rate of enzymatic hydrolysis as well as yields of accessible, fermentable sugars from cellulose and hemicellulose can be increased. Through pretreatment ...
Other labels: pre-treatment, bioethanol-production, lignocellulosic-materials, bioethanol, bioenergy, figure, narrative-text
Page: Technology
Generally, bioethanol production can be classified into three main types, depending on used/converted feedstocks (figure 1): 1.  Bioethanol production of 1st generation Bioethanol production of 1{}st generation is made on the one hand from starchy ...
Other labels: biomass, bioethanol-production, algae, feedstock, bioethanol, bioenergy, classification, figure
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