Surbhi Semwal scite author profile

Multiple enzymes are required for efficient hydrolysis of lignocellulosic biomass and no wild type organism is capable of producing all enzymes in desired levels. In this study, steam explosion of wheat straw was carried out at pilot scale and a synthetic enzyme mixture (EnzMix) was developed by partially replacing the cellulase with critical dosages of commercially available accessory enzymes (β-glucosidase, xylanase and laccase) through central composite design. Highest degree of synergism (DS) was observed with β-glucosidase (1.68) followed by xylanase (1.36). Finally, benchmarking of EnzMix (Celluclast, β-glucosidase and xylanase in a protein ratio of 20.40: 38.43: 41.16, respectively) and other leading commercial enzymes was carried out. Interestingly, hydrolysis improved by 75% at 6 h and 30% at 24 h, respectively in comparison of control. By this approach, 25% reduction in enzyme dosage was observed for obtaining the same hydrolysis yield with opitimized enzyme cocktail. Thus, development of enzyme cocktail is an effective and sustainable approach for high hydrolysis efficiency.

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2G waste lignin to fuel and high value-added chemicals: Approaches, challenges and future outlook for sustainable development

Sivagurunathan

Raj

Mohanta

et al. 2021

Chemosphere

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The impact of particle size of cellulosic residue and solid loadings on enzymatic hydrolysis with a mass balance

Kapoor

Semwal

Satlewal

et al. 2019

Fuel

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Surbhi Semwal

Biodiesel production using heterogeneous catalysts

Synergistic Enzyme Cocktail to Enhance Hydrolysis of Steam Exploded Wheat Straw at Pilot Scale

2G waste lignin to fuel and high value-added chemicals: Approaches, challenges and future outlook for sustainable development

The impact of particle size of cellulosic residue and solid loadings on enzymatic hydrolysis with a mass balance

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