A comparison of biochars from lignin, cellulose and wood as the sorbent to an aromatic pollutant

•Wood biochar's composition is close to cellulose biochar obtained at same HTT.•Wood biochar's properties were not dominated by lignin despite its recalcitrance.•Lignin biochar had a sorption capacity comparable to cellulose and wood biochars.•Lignin biochar is superior to other biochars o...

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Published inJournal of hazardous materials Vol. 280; pp. 450 - 457
Main Authors Li, Jianfa, Li, Yimin, Wu, Yunlu, Zheng, Mengying
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 15.09.2014
Elsevier
Subjects
Adsorption
Applied sciences
Biochar
carbon
carbonization
cellulose
Charcoal - chemistry
comparative study
Desorption
Exact sciences and technology
feedstocks
Lignin
Lignin - chemistry
Nitrobenzene
nitrobenzenes
Nitrobenzenes - isolation & purification
pollutants
Pollution
sorbents
Sorption
species
Surface Properties
temperature
Water Pollutants, Chemical - isolation & purification
wood
Wood - chemistry
Sorption
Lignin
Desorption
Nitrobenzene
Biochar
Wood
Spectral analysis
Carbonization
Pollutant
Preparation
Aromatic compound
Sorbent
Comparative study
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Abstract •Wood biochar's composition is close to cellulose biochar obtained at same HTT.•Wood biochar's properties were not dominated by lignin despite its recalcitrance.•Lignin biochar had a sorption capacity comparable to cellulose and wood biochars.•Lignin biochar is superior to other biochars on efficient biomass utilization.•High partition contribution favors desorption of nitrobenzene from biochars. Biochars’ performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used for biochar preparation. The objective of this work is to probe the feedstock's influence on biochar's sorption property through a comparative study on biochars from lignin, cellulose and wood prepared at 400°C and 600°C, respectively. Elemental and spectral analyses demonstrated that the wood biochar had a composition and carbonization degree close to the cellulose biochar but much different from the lignin biochar prepared at the same temperature, suggesting that lignin is not dominant to properties of plant-derived biochars. The lignin biochar showed a sorption capacity comparable to both cellulose and wood biochars as the sorbent to nitrobenzene, with a higher partition contribution to the total sorption due to the lower carbonization of lignin. In general, the lignin biochar is a good candidate of sorbent to aromatic pollutants, and is advantageous over the other two species with its efficient carbon utilization.
AbstractList Biochars' performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used for biochar preparation. The objective of this work is to probe the feedstock's influence on biochar's sorption property through a comparative study on biochars from lignin, cellulose and wood prepared at 400°C and 600°C, respectively. Elemental and spectral analyses demonstrated that the wood biochar had a composition and carbonization degree close to the cellulose biochar but much different from the lignin biochar prepared at the same temperature, suggesting that lignin is not dominant to properties of plant-derived biochars. The lignin biochar showed a sorption capacity comparable to both cellulose and wood biochars as the sorbent to nitrobenzene, with a higher partition contribution to the total sorption due to the lower carbonization of lignin. In general, the lignin biochar is a good candidate of sorbent to aromatic pollutants, and is advantageous over the other two species with its efficient carbon utilization.Biochars' performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used for biochar preparation. The objective of this work is to probe the feedstock's influence on biochar's sorption property through a comparative study on biochars from lignin, cellulose and wood prepared at 400°C and 600°C, respectively. Elemental and spectral analyses demonstrated that the wood biochar had a composition and carbonization degree close to the cellulose biochar but much different from the lignin biochar prepared at the same temperature, suggesting that lignin is not dominant to properties of plant-derived biochars. The lignin biochar showed a sorption capacity comparable to both cellulose and wood biochars as the sorbent to nitrobenzene, with a higher partition contribution to the total sorption due to the lower carbonization of lignin. In general, the lignin biochar is a good candidate of sorbent to aromatic pollutants, and is advantageous over the other two species with its efficient carbon utilization.
Biochars' performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used for biochar preparation. The objective of this work is to probe the feedstock's influence on biochar's sorption property through a comparative study on biochars from lignin, cellulose and wood prepared at 400°C and 600°C, respectively. Elemental and spectral analyses demonstrated that the wood biochar had a composition and carbonization degree close to the cellulose biochar but much different from the lignin biochar prepared at the same temperature, suggesting that lignin is not dominant to properties of plant-derived biochars. The lignin biochar showed a sorption capacity comparable to both cellulose and wood biochars as the sorbent to nitrobenzene, with a higher partition contribution to the total sorption due to the lower carbonization of lignin. In general, the lignin biochar is a good candidate of sorbent to aromatic pollutants, and is advantageous over the other two species with its efficient carbon utilization.
•Wood biochar's composition is close to cellulose biochar obtained at same HTT.•Wood biochar's properties were not dominated by lignin despite its recalcitrance.•Lignin biochar had a sorption capacity comparable to cellulose and wood biochars.•Lignin biochar is superior to other biochars on efficient biomass utilization.•High partition contribution favors desorption of nitrobenzene from biochars. Biochars’ performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used for biochar preparation. The objective of this work is to probe the feedstock's influence on biochar's sorption property through a comparative study on biochars from lignin, cellulose and wood prepared at 400°C and 600°C, respectively. Elemental and spectral analyses demonstrated that the wood biochar had a composition and carbonization degree close to the cellulose biochar but much different from the lignin biochar prepared at the same temperature, suggesting that lignin is not dominant to properties of plant-derived biochars. The lignin biochar showed a sorption capacity comparable to both cellulose and wood biochars as the sorbent to nitrobenzene, with a higher partition contribution to the total sorption due to the lower carbonization of lignin. In general, the lignin biochar is a good candidate of sorbent to aromatic pollutants, and is advantageous over the other two species with its efficient carbon utilization.
Author Li, Yimin
Zheng, Mengying
Wu, Yunlu
Li, Jianfa
Author_xml – sequence: 1
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  surname: Zheng
  fullname: Zheng, Mengying
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Keywords Sorption
Lignin
Desorption
Nitrobenzene
Biochar
Wood
Spectral analysis
Carbonization
Pollutant
Preparation
Aromatic compound
Sorbent
Comparative study
Language English
License CC BY 4.0
Copyright © 2014 Elsevier B.V. All rights reserved.
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  text: 2014-09-15
  day: 15
PublicationDecade 2010
PublicationPlace Kidlington
PublicationPlace_xml – name: Kidlington
– name: Netherlands
PublicationTitle Journal of hazardous materials
PublicationTitleAlternate J Hazard Mater
PublicationYear 2014
Publisher Elsevier B.V
Elsevier
Publisher_xml – name: Elsevier B.V
– name: Elsevier
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Snippet •Wood biochar's composition is close to cellulose biochar obtained at same HTT.•Wood biochar's properties were not dominated by lignin despite its...
Biochars' performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used...
Biochars’ performance as the sorbent to pollutants is dependent on their compositions and surface characteristics, which are then related to the feedstock used...
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SubjectTerms Adsorption
Applied sciences
Biochar
carbon
carbonization
cellulose
Charcoal - chemistry
comparative study
Desorption
Exact sciences and technology
feedstocks
Lignin
Lignin - chemistry
Nitrobenzene
nitrobenzenes
Nitrobenzenes - isolation & purification
pollutants
Pollution
sorbents
Sorption
species
Surface Properties
temperature
Water Pollutants, Chemical - isolation & purification
wood
Wood - chemistry
Title A comparison of biochars from lignin, cellulose and wood as the sorbent to an aromatic pollutant
URI https://dx.doi.org/10.1016/j.jhazmat.2014.08.033
https://www.ncbi.nlm.nih.gov/pubmed/25194813
https://www.proquest.com/docview/1609100711
https://www.proquest.com/docview/2000148336
Volume 280
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