A very high gravity (VHG) repeatedbatch fermentation system using an industrial strain of Saccharomyces cerevisiae PE-2 (isolated from sugarcane-to-ethanol distillery in Brazil) and mimicking industrially relevant conditions (high inoculation rates and low O2 availability) was successfully operated during fifteen consecutive fermentation cycles, attaining ethanol at 17.1 ± 0.2% (v/v) with a batch productivity of 3.5 ± 0.04 g l-1 h-1. Moreover, this innovative operational strategy (biomass refreshing step) prevented critical decreases on yeast viability levels and promoted high accumulation of intracellular glycerol and trehalose, which can provide an adaptive advantage to yeast cells under harsh industrial environments. This s...
The current world demand for bioethanol is increasing as a consequence of low fossil fuel availabili...
Most of the current processes for bioethanol production are based on the use of Very-High-Gravity (V...
The recent start-up of several full-scale ‘second generation’ ethanol plants marks a major milestone...
An optimized very high gravity (VHG) glucose medium supplemented with low cost nutrient sources wa...
The application and physiological background of two industrial Saccharomyces cerevisiae strains, iso...
Abstract Background: Applying very high gravity (VHG) fermentation conditions to the sugarcane juic...
Statistical experimental designs were used to develop a medium based on corn steep liquor (CSL) and ...
<div><p>Very high gravity (VHG) fermentation is aimed to considerably increase both the fermentation...
The flocculation gene FLO1 was transferred into the robust industrial strain Saccharomyces cerevisia...
Very high gravity (VHG) fermentation is aimed to considerably increase both the fermentation rate an...
Background: The optimization of industrial bioethanol production will depend on the rational design ...
The application of process engineering strategies for the development of high productivity fermentat...
AbstractMetabolic flux distribution may be altered by manipulating intracellular reducing equivalent...
The ethanol fermentation efficiency of sweet sorghum stem juice (SSJ) under a very high gravity (VHG...
Very high gravity (VHG) ethanol fermentation has been remarkably developed in order to significantly...
The current world demand for bioethanol is increasing as a consequence of low fossil fuel availabili...
Most of the current processes for bioethanol production are based on the use of Very-High-Gravity (V...
The recent start-up of several full-scale ‘second generation’ ethanol plants marks a major milestone...
An optimized very high gravity (VHG) glucose medium supplemented with low cost nutrient sources wa...
The application and physiological background of two industrial Saccharomyces cerevisiae strains, iso...
Abstract Background: Applying very high gravity (VHG) fermentation conditions to the sugarcane juic...
Statistical experimental designs were used to develop a medium based on corn steep liquor (CSL) and ...
<div><p>Very high gravity (VHG) fermentation is aimed to considerably increase both the fermentation...
The flocculation gene FLO1 was transferred into the robust industrial strain Saccharomyces cerevisia...
Very high gravity (VHG) fermentation is aimed to considerably increase both the fermentation rate an...
Background: The optimization of industrial bioethanol production will depend on the rational design ...
The application of process engineering strategies for the development of high productivity fermentat...
AbstractMetabolic flux distribution may be altered by manipulating intracellular reducing equivalent...
The ethanol fermentation efficiency of sweet sorghum stem juice (SSJ) under a very high gravity (VHG...
Very high gravity (VHG) ethanol fermentation has been remarkably developed in order to significantly...
The current world demand for bioethanol is increasing as a consequence of low fossil fuel availabili...
Most of the current processes for bioethanol production are based on the use of Very-High-Gravity (V...
The recent start-up of several full-scale ‘second generation’ ethanol plants marks a major milestone...