Hydrogen adsorption by woodceramics produced from biomass

Takasaki Akito; Iijima Suguru; Yamane Tomoka; Okabe Toshio

doi:10.1007/s12204-012-1280-2

Hydrogen adsorption by woodceramics produced from biomass

Takasaki Akito, Iijima Suguru, Yamane Tomoka, Okabe Toshio

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

Hydrogen adsorption characteristics of woodceramics, made from radiata pine wood fiber boards carbonized at 1 473K after impregnation with phenolic resin, with and without chemical treatment in an alkaline (KOH) or an acid (H2 SO4) solution were investigated The hydrogen adsorption capacity is improved by chemical treatment. The chemical treatment by KOH improves the adsorption capacity more than by H2SO4. The improvement of the capacity level, in any solution, is dependent on the type of chemical in the solution and its concentration. The maximum hydrogen capacity measured at 93K is mass fraction about w(H) = 2% for the woodceramics after chemical treatment in a volume fraction . = 50% KOH solution, although that is about w(H) = 0.7% for one without chemical treatment. The microscopic condition of pores in the woodceramics is thought to vary after chemical treatment.

Original language	English
Pages (from-to)	330-333
Number of pages	4
Journal	Journal of Shanghai Jiaotong University (Science)
Volume	17
Issue number	3
DOIs	https://doi.org/10.1007/s12204-012-1280-2
Publication status	Published - 2012 Jun

Keywords

Adsorption
Biomass
Chemical treatment
Hydrogen
Isotherm
Woodceramics

ASJC Scopus subject areas

General

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10.1007/s12204-012-1280-2

Cite this

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title = "Hydrogen adsorption by woodceramics produced from biomass",

abstract = "Hydrogen adsorption characteristics of woodceramics, made from radiata pine wood fiber boards carbonized at 1 473K after impregnation with phenolic resin, with and without chemical treatment in an alkaline (KOH) or an acid (H2 SO4) solution were investigated The hydrogen adsorption capacity is improved by chemical treatment. The chemical treatment by KOH improves the adsorption capacity more than by H2SO4. The improvement of the capacity level, in any solution, is dependent on the type of chemical in the solution and its concentration. The maximum hydrogen capacity measured at 93K is mass fraction about w(H) = 2% for the woodceramics after chemical treatment in a volume fraction . = 50% KOH solution, although that is about w(H) = 0.7% for one without chemical treatment. The microscopic condition of pores in the woodceramics is thought to vary after chemical treatment.",

keywords = "Adsorption, Biomass, Chemical treatment, Hydrogen, Isotherm, Woodceramics",

author = "Takasaki Akito and Iijima Suguru and Yamane Tomoka and Okabe Toshio",

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T1 - Hydrogen adsorption by woodceramics produced from biomass

AU - Akito, Takasaki

AU - Suguru, Iijima

AU - Tomoka, Yamane

AU - Toshio, Okabe

PY - 2012/6

Y1 - 2012/6

N2 - Hydrogen adsorption characteristics of woodceramics, made from radiata pine wood fiber boards carbonized at 1 473K after impregnation with phenolic resin, with and without chemical treatment in an alkaline (KOH) or an acid (H2 SO4) solution were investigated The hydrogen adsorption capacity is improved by chemical treatment. The chemical treatment by KOH improves the adsorption capacity more than by H2SO4. The improvement of the capacity level, in any solution, is dependent on the type of chemical in the solution and its concentration. The maximum hydrogen capacity measured at 93K is mass fraction about w(H) = 2% for the woodceramics after chemical treatment in a volume fraction . = 50% KOH solution, although that is about w(H) = 0.7% for one without chemical treatment. The microscopic condition of pores in the woodceramics is thought to vary after chemical treatment.

AB - Hydrogen adsorption characteristics of woodceramics, made from radiata pine wood fiber boards carbonized at 1 473K after impregnation with phenolic resin, with and without chemical treatment in an alkaline (KOH) or an acid (H2 SO4) solution were investigated The hydrogen adsorption capacity is improved by chemical treatment. The chemical treatment by KOH improves the adsorption capacity more than by H2SO4. The improvement of the capacity level, in any solution, is dependent on the type of chemical in the solution and its concentration. The maximum hydrogen capacity measured at 93K is mass fraction about w(H) = 2% for the woodceramics after chemical treatment in a volume fraction . = 50% KOH solution, although that is about w(H) = 0.7% for one without chemical treatment. The microscopic condition of pores in the woodceramics is thought to vary after chemical treatment.

KW - Adsorption

KW - Biomass

KW - Chemical treatment

KW - Hydrogen

KW - Isotherm

KW - Woodceramics

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Hydrogen adsorption by woodceramics produced from biomass

Abstract

Keywords

ASJC Scopus subject areas

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