Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression
Wheat straw (Triticum aestivum L.) and oat straw (Avena sativa L.) were chemically pretreated at different severities with the purpose of delignification, which in turn leads to a better accessibility of plant cell wall polysaccharides for further biotechnological conversion. Key parameters of these...
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th-mahidol.288832018-09-24T16:02:06Z Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression Chularat Krongtaew Kurt Messner Thomas Ters Karin Fackler Mahidol University Technische Universitat Wien Universitat fur Bodenkultur Wien Chemical Engineering Environmental Science Wheat straw (Triticum aestivum L.) and oat straw (Avena sativa L.) were chemically pretreated at different severities with the purpose of delignification, which in turn leads to a better accessibility of plant cell wall polysaccharides for further biotechnological conversion. Key parameters of these samples, i.e. weight loss, residual lignin content, and hydrolysable sugars serving as precursors for biofuel production were monitored by wet-chemistry analyses. Fourier transform near infrared (FT-NIR) spectra were correlated to these data by means of partial leastsquares (PLS) regression. Weight loss (4.0 - 33.5%) of the wheat straw could be predicted (RMSEP = 3.5%, R2test= 0.75) from the entire FT-NIR spectra (10000 - 4000 cm-1). Residual lignin content (7.9 - 20.7%, RMSEP = 0.9%, R2test= 0.94) and amount of reducing sugars based on pretreated wheat straw (128 - 1000 mg g-1, RMSEP = 83 mg g-1, R2test= 0.89) were powerfully evaluated between 6900 and 5510 cm-1, a spectral region where polysaccharides and lignin absorb. All these parameters could be equally predicted with even higher accuracy from pre-treated oat straw samples. Furthermore, some important parameters for anaerobic conversion of wheat straw to biogas - biogas production, total solids, and volatile solids content - could be estimated. 2018-09-24T08:51:13Z 2018-09-24T08:51:13Z 2010-11-01 Article BioResources. Vol.5, No.4 (2010), 2081-2096 19302126 2-s2.0-77956086552 https://repository.li.mahidol.ac.th/handle/123456789/28883 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=77956086552&origin=inward |
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Chemical Engineering Environmental Science Chularat Krongtaew Kurt Messner Thomas Ters Karin Fackler Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression |
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Wheat straw (Triticum aestivum L.) and oat straw (Avena sativa L.) were chemically pretreated at different severities with the purpose of delignification, which in turn leads to a better accessibility of plant cell wall polysaccharides for further biotechnological conversion. Key parameters of these samples, i.e. weight loss, residual lignin content, and hydrolysable sugars serving as precursors for biofuel production were monitored by wet-chemistry analyses. Fourier transform near infrared (FT-NIR) spectra were correlated to these data by means of partial leastsquares (PLS) regression. Weight loss (4.0 - 33.5%) of the wheat straw could be predicted (RMSEP = 3.5%, R2test= 0.75) from the entire FT-NIR spectra (10000 - 4000 cm-1). Residual lignin content (7.9 - 20.7%, RMSEP = 0.9%, R2test= 0.94) and amount of reducing sugars based on pretreated wheat straw (128 - 1000 mg g-1, RMSEP = 83 mg g-1, R2test= 0.89) were powerfully evaluated between 6900 and 5510 cm-1, a spectral region where polysaccharides and lignin absorb. All these parameters could be equally predicted with even higher accuracy from pre-treated oat straw samples. Furthermore, some important parameters for anaerobic conversion of wheat straw to biogas - biogas production, total solids, and volatile solids content - could be estimated. |
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Mahidol University Chularat Krongtaew Kurt Messner Thomas Ters Karin Fackler |
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Article |
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Chularat Krongtaew Kurt Messner Thomas Ters Karin Fackler |
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Chularat Krongtaew |
| title |
Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression |
| title_short |
Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression |
| title_full |
Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression |
| title_fullStr |
Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression |
| title_full_unstemmed |
Characterization of key parameters for biotechnological lignocellulose conversion assessed by FT-NIR spectroscopy. Part II: Quantitative analysis by partial least squares regression |
| title_sort |
characterization of key parameters for biotechnological lignocellulose conversion assessed by ft-nir spectroscopy. part ii: quantitative analysis by partial least squares regression |
| publishDate |
2018 |
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https://repository.li.mahidol.ac.th/handle/123456789/28883 |
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1763492482460418048 |