Willow biomass as feedstock for an integrated multi-product biorefinery

•The higher heating value of the cultivars is typical of SRC and hardwood.•The moisture content in the three-year stems ranged from 49.53% to 53.18%.•The biomass of willow cultivars contains small amounts of undesirable components.•The average contents of holocellulose, cellulose and lignin are 75,...

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Veröffentlicht in:	Industrial crops and products 2014-07, Vol.58, p.230-237
Hauptverfasser:	Krzyżaniak, Michał, Stolarski, Mariusz J., Waliszewska, Bogusława, Szczukowski, Stefan, Tworkowski, Józef, Załuski, Dariusz, Śnieg, Malwina
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Schlagworte:	Biomass Biorefinery Calorific value Chemical and elemental composition Feedstock Lignocellulose Raw materials Refining Thermophysical Thermophysical properties Willow Willow biomass
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container_title	Industrial crops and products
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creator	Krzyżaniak, Michał Stolarski, Mariusz J. Waliszewska, Bogusława Szczukowski, Stefan Tworkowski, Józef Załuski, Dariusz Śnieg, Malwina
description	•The higher heating value of the cultivars is typical of SRC and hardwood.•The moisture content in the three-year stems ranged from 49.53% to 53.18%.•The biomass of willow cultivars contains small amounts of undesirable components.•The average contents of holocellulose, cellulose and lignin are 75, 44, 25% d.m.•The yield of cellulose in the UWM 006 and UWM 043 clones is the highest. Biomass has enormous potential for use in the chemical industry. It is a source of a large number of chemical components and manufactured products. Lignocellulosic biomass can be a source of high-value products produced on an industrial scale in a profitable way. The aim of this study was to determine the chemical composition of seven varieties and clones of willow grown in the moderate climate of Europe and to choose cultivars which can provide a sufficient quantity of feedstock to operate an integrated multiproduct biorefinery. The biomass of the willow cultivars under study had good thermophysical compositions and they contained only small amounts of undesirable components (ash, sulphur, chlorine). The average higher heating value and lower heating value of willow biomass was 19.50MJkg−1 d.m. and 8.38MJkg−1, respectively. The content and yield of cellulose and hemicelluloses in biomass of the UWM 006 and UWM 043 clones of Salix viminalis L. makes them highly useful for an integrated multi-product biorefinery, based on lignocellulosic raw material.
doi_str_mv	10.1016/j.indcrop.2014.04.033
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Biomass has enormous potential for use in the chemical industry. It is a source of a large number of chemical components and manufactured products. Lignocellulosic biomass can be a source of high-value products produced on an industrial scale in a profitable way. The aim of this study was to determine the chemical composition of seven varieties and clones of willow grown in the moderate climate of Europe and to choose cultivars which can provide a sufficient quantity of feedstock to operate an integrated multiproduct biorefinery. The biomass of the willow cultivars under study had good thermophysical compositions and they contained only small amounts of undesirable components (ash, sulphur, chlorine). The average higher heating value and lower heating value of willow biomass was 19.50MJkg−1 d.m. and 8.38MJkg−1, respectively. 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Biomass has enormous potential for use in the chemical industry. It is a source of a large number of chemical components and manufactured products. Lignocellulosic biomass can be a source of high-value products produced on an industrial scale in a profitable way. The aim of this study was to determine the chemical composition of seven varieties and clones of willow grown in the moderate climate of Europe and to choose cultivars which can provide a sufficient quantity of feedstock to operate an integrated multiproduct biorefinery. The biomass of the willow cultivars under study had good thermophysical compositions and they contained only small amounts of undesirable components (ash, sulphur, chlorine). The average higher heating value and lower heating value of willow biomass was 19.50MJkg−1 d.m. and 8.38MJkg−1, respectively. 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Biomass has enormous potential for use in the chemical industry. It is a source of a large number of chemical components and manufactured products. Lignocellulosic biomass can be a source of high-value products produced on an industrial scale in a profitable way. The aim of this study was to determine the chemical composition of seven varieties and clones of willow grown in the moderate climate of Europe and to choose cultivars which can provide a sufficient quantity of feedstock to operate an integrated multiproduct biorefinery. The biomass of the willow cultivars under study had good thermophysical compositions and they contained only small amounts of undesirable components (ash, sulphur, chlorine). The average higher heating value and lower heating value of willow biomass was 19.50MJkg−1 d.m. and 8.38MJkg−1, respectively. 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subjects	Biomass Biorefinery Calorific value Chemical and elemental composition Feedstock Lignocellulose Raw materials Refining Thermophysical Thermophysical properties Willow Willow biomass
title	Willow biomass as feedstock for an integrated multi-product biorefinery
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