| Sugarcane (17) |  |
including the sugar in maize and sugarcane. Fermentation turns the sugar into lactic acid, which in turn is a building block for polylactic acid.
#Biodiesel production from Sugarcane A multi-institutional team led by plant biology professor Stephen P. Long from the University of Illinois reports that it can increase sugarcane's geographic range boost its photosynthetic rate by 30 percent
These are the first steps in a bigger initiative that will turn sugarcane and sorghum two of the most productive crop plants known into even more productive oil-generating plants.
and mustard) and later with sugarcane the team introduced genes that boost natural oil production in the plant.
They increased oil production in sugarcane stems to about 1. 5 percent. The team hopes to increase the oil content of sugarcane stems to about 20 percent he said.
Using genetic engineering the researchers increased photosynthetic efficiency in sugarcane and sorghum by 30 percent Long said.
And to boost cold tolerance researchers are crossing sugarcane with Miscanthus a related perennial grass that can grow as far north as Canada.
The new hybrid is more cold-tolerant than sugarcane but further crosses are needed to restore the other attributes of sugarcane
while preserving its cold-tolerance Long said. Ultimately the team hopes to integrate all of these new attributes into sugarcane he said.
The research team led by the University of Illinois includes scientists from Brookhaven National Laboratory the University of Florida and the University of Nebraska.
Long is an affiliate of the Institute for Genomic Biology at the University of Illinois s
including the sugar in maize and sugarcane. Fermentation turns the sugar into lactic acid, which in turn is a building block for polylactic acid.
a chemical engineer with joint appointments at Berkeley Lab and UC Berkeley. he recyclable catalysts we developed are capable of converting sugarcane biomass into a new class of aviation fuel and lubricants with superior cold
The process developed at EBI can be used to selectively upgrade alkyl methyl ketones derived from sugarcane biomass into trimer condensates with better than 95-percent yields.
the fibrous residue that remains after juice is extracted from sugarcane stalk, into fuels and other products.
Although the goal of this study was to develop a strategy for the flexible production of jet fuels and lubricant base oils in a Brazilian sugarcane refinery,
< Back - Next >
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011