Vinay Sharma
Banasthali University, India
Title: Developmentof efficientbioprocesses for improvedbioethanol productionfroma mixtureof food wastes
Biography
Biography: Vinay Sharma
Abstract
Development of efficient bioprocesses for improved bioethanol production from a mixture of food wastes
Vinay Sharma*, Shruti Pandey, Arindam Kuila
Department of Bioscience & Biotechnology, Banasthali University, Rajasthan-304022, India
Abstract
Lignocellulosic bioethanol production now-a-days is gaining increasing interest due to global warming, hike in oil price etc. But there are several technological and other challenges associated with bioethanol production. Technological challenges are development of efficient pretreatment step which can significantly degrade lignin without altering carbohydrates, efficient hydrolysis step and development of fermentation step which can utilize both pentose and hexose sugars. The present study has focused on bioprocess development for bioethanol production from a mixture of food wastes (spinach, cabbage, peels of onion and orange). First liquid hot water (LHW) pretreatment of food waste was optimized by varying different parameters (temperature, incubation time and substrate concentration). Maximum reducing sugar yield (525.60 mg/gram dry substrate) was found at substrate concentration 10% (w/v), temperature 160 oC and incubation time 30 min. After optimization, LHW pretreated biomass was characterized using Fourier transformed infrared spectroscopy (FTIR), X-ray diffraction (XRD), Scanning electron microscopy (SEM) and biochemical composition analysis. Further, pretreated biomass was hydrolysed using whole cells of Fusarium incarnatum KU377454 (locally isolated strain) without addition of any enzymes. It showed maximum reducing sugar yield of 580.95 mg/gram dry substrate) within 3 days of incubation at 30 oC. The produced sugar hydrolysate was further fermented using co-cultures of hexose fermenting strain (Sacchromyces cerevisiae) and pentose fermenting strain (F. oxysporum). Maximum ethanol production (3.25%, v/v) was observed after 48 h of incubation at 35 oC. The present study, reports development of efficient thermal pretreatment without addition of any chemicals. Further carbohydrates, part of pretreated biomass were converted into reducing sugars by whole fungal strain without the use of any costly chemicals. Lastly, fermentation process was optimized using co-culture strategy which yielded maximum ethanol from both pentose and hexose sugars. This study can be useful for commercial bioethanol production from food waste.
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Recent publications
1. Sharma S, Sharma V, Kuila A (2018) Simultaneous saccharification and fermentation of corn husk by co-culture strategy. Journal of Petroleum & Environmental Biotechnology (Revised manuscript under review).
2. Sharma S, Sharma V, Kuila A (2018) Thermochemical pretreatment of corn husk and enzymatic hydrolysis using mixture of different cellulases. Biomass Conversion and Biorefinery, 8:179-188.
3. Madhawan A, Aroora A, Das J, Sharma S, Kuila A, Sharma V (2017) Different types of thermochemical pretreatment and optimization of enzymatic hydrolysis of groundnut shell. Waste and Biomass Valorization (Accepted), doi: 10.1007/s12649-017-0083-y.
4. Sharma S, Kuila A, Sharma V (2017) Enzymatic hydrolysis of thermochemically pretreated biomass using a mixture of cellulolytic enzymes produced from different fungal sources. Clean Technologies and Environmental Policy, 19:1577-1584.
5. Madhawan A, Aroora A, Das J, Kuila A, Sharma V (2017) Microreactor technology for biodiesel production: a review. Biomass Conversion and Biorefinery (Accepted), doi: 10.1007/s13399-017-0296-0.
6. Sharma S, Sharma V, Kuila A (2016) Cellulase production using natural medium and its application on enzymatic hydrolysis of thermo chemically pretreated biomass. 3 Biotech 6:1-11.
7. Singh A, Sharma V, Banerjee R, Sharma S, Kuila A (2016) Perspectives of cell wall degrading enzymes in cereal polishing. Food Bioscience Journal 15:81-86.
8. Sharma V, Sharma S, Kuila A (2016) A review on current technological advancement of lignocellulosic bioethanol production. Journal of Applied Biotechnology & Bioengineering 1:1-7.