Bioethanol production by new thermo

Bioethanol production by new thermotolerant Romanian yeast strains
Received for publication, March 10, 2010 Accepted, June 25, 2010
CIMPEANU,C.*, CAMPEANU G.*, BEGEA,M.**, VLADESCU,M.**, CORNEA,C.P.* *Center of Applied Biochemistry and Biotechnology, Bdv.Marasti 59, Sector 1, Bucuresti, Romania **ICA Research&Development, Splaiul Independentei 2020, S6, Bucuresti, Romania E-mail:cornelia.cimpeanu@gmail.com
Abstract
Liquid biofuels are mainly bioethanol, which is produced by fermentation of sugars or starches derived from agricultural selected resources and biodiesel, produced by transesterification of vegetable oils. Despite the large amount of studies performed on bioethanol production, the theme continues to be of interest through the new yeast strains with increased performance in fermentation. In this study, 45 new yeast strains were isolated from fruits and their juices in the air and on special media. Their identification at species level was performed by classical methods. During the experiments seven strains of Sccharomyces cerevisiae were selected and tested both at laboratory and pilot level for their performances. Among these strains, two of them proved to be thermotolerant and reacted positively by moderate development on tested media after a longer period of time (3 to 4 days). The tests conducted in pilot station point out that S.cerevisiae F7 strain produced the largest quantity of alcohol in the fermented meal. Based to their ability to produce ethanol from corn meal, this strain could be used at industrial level for fermentation of various raw materials in order to obtain an increased production of bioethanol.



Ethanol is an important chemical product with emerging potential as a biofuel to replace fossil fuels. An eco-friendly bio-ethanol is one of the alternate fuels that can be used in unmodified petrol engines with current fuelling infrastructure and it is easily applicable in present day combustion engine, as mixing with gasoline (6). It is desirable fuel additive because it allows fuel to burn more cleanly and lowers greenhouse gas emissions (the emission and toxicity of ethanol are lower than those of fossil fuels such as petroleum, diesel etc). Ethanol can be produced by fermentation of sugars from agricultural products or waste plant material, but when a substrate is chosen the attention must be paid to the economical aspects as well to energy consumption (11). The most commonly used ethanol producer is Saccharomyces cerevisiae, various strains with good specific rate and increased rate of ethanol production at high osmotic activities being isolated and characterized. However, during batch fermentation many parameters can cause the decrease of the specific growth rate of yeast strains. Moreover, the inhibition of yeasts growth can be caused by product or substrate concentration (5). For these reasons, the isolation and characterization of new yeast strains, able to produce higher ethanol yields during fermentation in specific conditions continue to be of great interest from practical point of view. The aim of this study was to investigate the ability of some new Romanian yeast strains to produce ethanol during the fermentation of corn meal as well their thermotolerance and osmotolerance.