Publications by authors named "Emrode Elisante"
The major bottlenecks in achieving competitive bioethanol fuel are the high cost of feedstock, energy and enzymes employed in pretreatment prior to fermentation. Lignocellulosic biomass has been proposed as an alternative feedstock, but because of its complexity, economic viability is yet to be realized. Therefore, research around non-conventional feedstocks and deployment of bioconversion approaches that downsize the cost of energy and enzymes is justified.
View Article and Find Full Text PDFThe thermoanaerobe, Caloramator boliviensis was used to ferment starch hydrolysate from inedible wild cassava to ethanol at 60°C. A raw starch degrading α-amylase was used to hydrolyse the cassava starch. During fermentation, the organism released CO2 and H2 gases, and Gas Endeavour System was successfully used for monitoring and recording formation of these gaseous products.
View Article and Find Full Text PDFArticle Synopsis
- The study aimed to evaluate the wild cassava species Manihot glaziovii as a potential source for bioenergy in Tanzania, focusing on its capability to produce bioethanol and biogas.
- Composition analysis revealed that M. glaziovii has high starch content (77-81%) and favorable conditions for biofuel production, achieving significant ethanol concentration through fermentation.
- The co-production method of bioethanol and biogas using fermentation residue produced the highest energy yield, indicating that M. glaziovii could be an effective feedstock for sustainable energy solutions.