Adsorption properties of biomass-based activated carbon prepared with spent coffee grounds and pomelo skin by phosphoric acid activation

► AC prepared from coffee grounds and pomelo skin were activated by phosphoric acid. ► Adsorption of ethylene and n-butane fitted well with Langmuir equation at 308K. ► PS-AC could adsorb 129cm3/g n-butane at room temperature up to 1atm. ► Micropore filling effect was explained in a thermodynamic wa...

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Bibliographic Details
Published inApplied surface science Vol. 268; pp. 566 - 570
Main Authors Ma, Xiaodong, Ouyang, Feng
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.03.2013
Elsevier
Subjects
Activated carbon
Adsorption
Coffee grounds
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Physics
Pomelo skin
Adsorption
Activated carbon
Pomelo skin
Coffee grounds
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Abstract ► AC prepared from coffee grounds and pomelo skin were activated by phosphoric acid. ► Adsorption of ethylene and n-butane fitted well with Langmuir equation at 308K. ► PS-AC could adsorb 129cm3/g n-butane at room temperature up to 1atm. ► Micropore filling effect was explained in a thermodynamic way. Activated carbon prepared from spent coffee grounds and pomelo skin by phosphoric acid activation had been employed as the adsorbent for ethylene and n-butane at room temperature. Prepared activated carbon was characterized by means of nitrogen adsorption–desorption, X-ray powder diffraction, scanning electron microscope and Fourier transform infrared spectroscope. It was confirmed that pore structure played an important role during the adsorption testes. Adsorption isotherms of ethylene and n-butane fitted well with Langmuir equation. The prepared samples owned better adsorption capacity for n-butane than commercial activated carbon. Isosteric heats of adsorptions at different coverage were calculated through Clausius–Clapeyron equation. Micropore filling effect was explained in a thermodynamic way.
AbstractList ► AC prepared from coffee grounds and pomelo skin were activated by phosphoric acid. ► Adsorption of ethylene and n-butane fitted well with Langmuir equation at 308K. ► PS-AC could adsorb 129cm3/g n-butane at room temperature up to 1atm. ► Micropore filling effect was explained in a thermodynamic way. Activated carbon prepared from spent coffee grounds and pomelo skin by phosphoric acid activation had been employed as the adsorbent for ethylene and n-butane at room temperature. Prepared activated carbon was characterized by means of nitrogen adsorption–desorption, X-ray powder diffraction, scanning electron microscope and Fourier transform infrared spectroscope. It was confirmed that pore structure played an important role during the adsorption testes. Adsorption isotherms of ethylene and n-butane fitted well with Langmuir equation. The prepared samples owned better adsorption capacity for n-butane than commercial activated carbon. Isosteric heats of adsorptions at different coverage were calculated through Clausius–Clapeyron equation. Micropore filling effect was explained in a thermodynamic way.
Author Ma, Xiaodong
Ouyang, Feng
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  surname: Ouyang
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  email: ouyangfh@hit.edu.cn
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Keywords Adsorption
Activated carbon
Pomelo skin
Coffee grounds
Language English
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Snippet ► AC prepared from coffee grounds and pomelo skin were activated by phosphoric acid. ► Adsorption of ethylene and n-butane fitted well with Langmuir equation...
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StartPage 566
SubjectTerms Activated carbon
Adsorption
Coffee grounds
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Physics
Pomelo skin
Title Adsorption properties of biomass-based activated carbon prepared with spent coffee grounds and pomelo skin by phosphoric acid activation
URI https://dx.doi.org/10.1016/j.apsusc.2013.01.009
Volume 268
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