Add to ORKGThis study presents ethanol production from molasses, dates and sugarcane syrup with sugar concentration of 35g/l in batch culture. Molasses (retention time, 24 h; initial sugar concentration, 100 g/l) gave highest yield of ethanol [conc., 45.5 g/l (theoretical yield 89%)] in a packed bed reactor loaded with immobilized Saccharomyces cerevisiae beads (mean diam, 3 mm). After 16 h of cultivation, free cells were harvested for immobilization. Entrapment method was used to encapsulate free cells using 2.5% sodium alginate solution, solidified in calcium chloride bath. Growth kinetic model for S. cerevisiae in batch culture and rate model for performance of immobilized cell reactor (ICR) were determined.</p
In this project the selective conversion of glucose to ethanol from glucose/fructose mixtures was in...
Ethanol production via the batch fermentation of sugarcane juice using immobilized yeast has been st...
617-623Optimization of a suitable process for whole cell immobilization of Kluyveromyces thermtolera...
This study presents ethanol production from molasses, dates and sugarcane syrup with sugar concentra...
Fermentation of sugar by Saccharomyces cerevisiae, for production of ethanol in an immobilized cell ...
In the present work, studies were carried out on the ethanol production by free and immobilized Sacc...
Using a growth medium based on cane blackstrap molasses, we compared ethanol produc-tion by two stra...
Saccharmoyces cerevisiae ATCC 39859 was immobilized onto small cubes of wood in order to produce ver...
Abstract: The continuous production of ethanol from beet molasses by Ca-alginate immobilized Sacchar...
Sugar-cane stalks, 2.0 cm long, were used as a support for yeast immobilization envisaging ethanol p...
Continuous -flow fermentation of sugar into ethanol was performed using free cell and immobilized ye...
Using a growth medium based on cane blackstrap molasses, we compared ethanol production by two strai...
Sugar is converted to ethanol and CO2 by yeast during the fermentation process. Ethanol has various ...
The ethanolic fermentation of glucose by yeast-in combination with liquid-liquid extraction of the p...
In this thesis, the modelling and operation of the fermentation of glucose to ethanol using Saccharo...
In this project the selective conversion of glucose to ethanol from glucose/fructose mixtures was in...
Ethanol production via the batch fermentation of sugarcane juice using immobilized yeast has been st...
617-623Optimization of a suitable process for whole cell immobilization of Kluyveromyces thermtolera...
This study presents ethanol production from molasses, dates and sugarcane syrup with sugar concentra...
Fermentation of sugar by Saccharomyces cerevisiae, for production of ethanol in an immobilized cell ...
In the present work, studies were carried out on the ethanol production by free and immobilized Sacc...
Using a growth medium based on cane blackstrap molasses, we compared ethanol produc-tion by two stra...
Saccharmoyces cerevisiae ATCC 39859 was immobilized onto small cubes of wood in order to produce ver...
Abstract: The continuous production of ethanol from beet molasses by Ca-alginate immobilized Sacchar...
Sugar-cane stalks, 2.0 cm long, were used as a support for yeast immobilization envisaging ethanol p...
Continuous -flow fermentation of sugar into ethanol was performed using free cell and immobilized ye...
Using a growth medium based on cane blackstrap molasses, we compared ethanol production by two strai...
Sugar is converted to ethanol and CO2 by yeast during the fermentation process. Ethanol has various ...
The ethanolic fermentation of glucose by yeast-in combination with liquid-liquid extraction of the p...
In this thesis, the modelling and operation of the fermentation of glucose to ethanol using Saccharo...
In this project the selective conversion of glucose to ethanol from glucose/fructose mixtures was in...
Ethanol production via the batch fermentation of sugarcane juice using immobilized yeast has been st...
617-623Optimization of a suitable process for whole cell immobilization of Kluyveromyces thermtolera...