Improving the performance of enzymes in hydrolysis of high solids paper pulp derived from MSW
Improving the performance of enzymes in hydrolysis of high solids paper pulp derived from MSW
Background
The research aimed to improve the overall conversion efficiency of the CTec® family of enzymes by identifying factors that lead to inhibition and seeking methods to overcome these through process modification and manipulation. The starting material was pulp derived from municipal solid waste and processed in an industrial-scale washing plant.
Results
Analysis of the pulp by acid hydrolysis showed a ratio of 55 : 12 : 6 : 24 : 3 of glucan : xylan : araban/galactan/mannan : lignin : ash. At high total solids content (>18.5% TS) single-stage enzyme hydrolysis gave a maximum glucan conversion of 68%. It was found that two-stage hydrolysis could give higher conversion if sugar inhibition was removed by an intermediate fermentation step between hydrolysis stages. This, however, was not as effective as direct removal of the sugar products, including xylose, by washing of the residual pulp at pH 5. This improved the water availability and allowed reactivation of the pulp-bound enzymes. Inhibition of enzyme activity could further be alleviated by replenishment of ?-glucosidase which was shown to be removed during the wash step.
Conclusions
The two-stage hydrolysis process developed could give an overall glucan conversion of 88%, with an average glucose concentration close to 8% in 4 days, thus providing an ideal starting point for ethanol fermentation with a likely yield of 4 wt%. This is a significant improvement over a single-step process. This hydrolysis configuration also provides the potential to recover the sugars associated with residual solids which are diluted when washing hydrolysed pulp.
lignocellulose, cellulases, enzyme hydrolysis, high solids hydrolysis, municipal solid waste (msw, bioethanol
107
Puri, Dhivya J.
4b092a84-d673-42e4-b177-aa01c92050e3
Heaven, Sonia
f25f74b6-97bd-4a18-b33b-a63084718571
Banks, Charles J.
5c6c8c4b-5b25-4e37-9058-50fa8d2e926f
25 July 2013
Puri, Dhivya J.
4b092a84-d673-42e4-b177-aa01c92050e3
Heaven, Sonia
f25f74b6-97bd-4a18-b33b-a63084718571
Banks, Charles J.
5c6c8c4b-5b25-4e37-9058-50fa8d2e926f
Puri, Dhivya J., Heaven, Sonia and Banks, Charles J.
(2013)
Improving the performance of enzymes in hydrolysis of high solids paper pulp derived from MSW.
Biotechnology for Biofuels, 6 (1), .
(doi:10.1186/1754-6834-6-107).
Abstract
Background
The research aimed to improve the overall conversion efficiency of the CTec® family of enzymes by identifying factors that lead to inhibition and seeking methods to overcome these through process modification and manipulation. The starting material was pulp derived from municipal solid waste and processed in an industrial-scale washing plant.
Results
Analysis of the pulp by acid hydrolysis showed a ratio of 55 : 12 : 6 : 24 : 3 of glucan : xylan : araban/galactan/mannan : lignin : ash. At high total solids content (>18.5% TS) single-stage enzyme hydrolysis gave a maximum glucan conversion of 68%. It was found that two-stage hydrolysis could give higher conversion if sugar inhibition was removed by an intermediate fermentation step between hydrolysis stages. This, however, was not as effective as direct removal of the sugar products, including xylose, by washing of the residual pulp at pH 5. This improved the water availability and allowed reactivation of the pulp-bound enzymes. Inhibition of enzyme activity could further be alleviated by replenishment of ?-glucosidase which was shown to be removed during the wash step.
Conclusions
The two-stage hydrolysis process developed could give an overall glucan conversion of 88%, with an average glucose concentration close to 8% in 4 days, thus providing an ideal starting point for ethanol fermentation with a likely yield of 4 wt%. This is a significant improvement over a single-step process. This hydrolysis configuration also provides the potential to recover the sugars associated with residual solids which are diluted when washing hydrolysed pulp.
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Published date: 25 July 2013
Keywords:
lignocellulose, cellulases, enzyme hydrolysis, high solids hydrolysis, municipal solid waste (msw, bioethanol
Organisations:
Water & Environmental Engineering Group
Identifiers
Local EPrints ID: 355110
URI: http://eprints.soton.ac.uk/id/eprint/355110
PURE UUID: 36a4b5f9-fef1-4f16-99bc-690e8cba2ae2
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Date deposited: 12 Aug 2013 15:18
Last modified: 15 Mar 2024 02:52
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Author:
Dhivya J. Puri
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