Ethanol Yield Articles & Analysis
6 articles found
Its ability to ferment sugars into ethanol and carbon dioxide made it indispensable for these processes. ...
Centrifuges contribute to efficient ethanol production and can recover high-value coproducts. Industry relies on renewable energy. A good example is the production of ethanol derived from a variety of sustainable sources. Modern ethanol technology increases yields above historical levels and recovers high-value coproducts from ...
Recently, the integrated ethanol–methane fermentation process has been studied to prevent wastewater pollution. ...
Prospects for ethanol production from sugar beet in The Netherlands have been analysed using measured production data from two experimental farms and literature on beet to ethanol conversion. The analyses include beet cultivation and harvesting, transport to the factory, conversion into ethanol and delivery of the ethanol to ...
The alkaline/oxidative pretreatment was selected for improving enzymatic hydrolysis of the aquatic plants. Ethanol was produced with yields of 0.14–0.17 g-ethanol/ g-biomass in a simultaneous saccharification and fermentation mode using a recombinant Escherichia coli strain or a typical yeast strain Saccharomyces cerevisiae. ...
Total dry matter production by triticale/corn and triticale/sorghum-sudangrass was 25% greater than sole-crop corn, which in turn produced 21% more dry matter than triticale/sunn hemp. Potential ethanol yield was greatest for triticale/corn, which was estimated to have the capacity to produce 1080 L ha–1 more ethanol than sole-crop corn. ...