Optimization
of ethanol production using pretreated corn cob and sugarcane bagasse
hydrolysate by Candida parapsilosis strain BKR1
Balakrishnaraja
R.1*, Balasubramanian S.2, Aravindan P.2,
Arulraj A.2, Selvapriya K.2, Geethadevi S.1
and Nisha Rao1
1Bannari Amman
Institute of Technology, Sathyamangalam-638 401, India
2Government College
of Technology, Coimbatore-641 013, India
Department of
Biotechnology, Bannari Amman Institute of Technology, Sathyamangalam-638 401,
India
*Corresponding
Author E-mail: balakrishanrajar@bitsathy.ac.in????
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Key
words
Candida
sp.????????????????????????????
Corn cob hydrolysate
Ethanol
Lignocelluloses
Sugarcane hydrolysate
Publication Data
Paper received :
23.05.2016?????????????????? Revised received :
29.11.2016????????????????????? Re-revised received : 16.03.2017 Accepted :
23.03.2017???????????
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Abstract
Aim: Bioethanol is a
suitable and best alternative to the replenishing fossil fuel in the fast
growing world. To meet the rising demand of ethanol in the global market,
there needs to be lot of improvisation in the existing process. One such
method is to utilize more pentose sugar along with hexose in the substrate
for better yield. In the present study, the efficiency of Candida
parapsilosis BKR1 species for the production of ethanol was studied in
corncobs and sugarcane bagasse.
Methodology:
The
sugarcane bagasse and corn cobs were collected from local market, Coimbatore
and Candida parapsilosis BKR1 was isolated from sugar cane extract.
The lignocellulosic materials were treated by various combination of
pretreatment (acid and alkali pretreatment) and hydrolysis (acid, alkaline
and sodium carbonate hydrolysis) methods to maximize the fermentable sugars
in the substrate. The fermentation conditions such as pH, inoculum age,
nitrogen source and fermentation time for ethanol production were optimized and
the fermented media of both substrates were subjected to distillation to find
ethanol percentage by gas chromatography.? ????????
Results:
Acid
pretreatment with sodium carbonate hydrolysis produced higher sugar yield for
both the lignocellulosic materials. The studies on optimization showed
maximum production using 24th hr inoculum, with 1% nitrogen source
at pH 6, during 6th day of fermentation @ 120 rpm for corn cobs and sugarcane
bagasse. The results revealed that ethanol concentration in sugarcane bagasse
and corn cobs were 27.93 g l-1 and 20.78 g l-1,
respectively. ?????????
Interpretation:
The
Candida parapsilosis BKR1 strain efficiently utilized sugarcane
bagasse than corn cobs and produced high concentration of ethanol.
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conclusions enforced or derived, rest completely with the author(s).
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