Novel mesoporous carbon-silica composites from vinasse for the removal of dyes from aqueous silk dyeing wastes

Tippawan Ponnikorn; Jesper T.N. Knijnenburg; Duncan J. Macquarrie; Yuvarat Ngernyen

doi:10.14456/easr.2022.69

Novel mesoporous carbon-silica composites from vinasse for the removal of dyes from aqueous silk dyeing wastes

Tippawan Ponnikorn, Jesper T.N. Knijnenburg, Duncan J. Macquarrie, Yuvarat Ngernyen^*

^*Corresponding author for this work

Chemistry

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

Abstract

Novel mesoporous carbon-silica composites were prepared from vinasse, a by-product from ethanol production, as the carbon source, and sodium silicate (Na2SiO3) and potassium silicate (K2SiO3) as low-cost silica source alternatives to tetraethyl orthosilicate (TEOS). The composites were characterized for their surface area and porous properties using nitrogen adsorption-desorption porosimetry. The composites possessed a high mesopore volume (45-77%) with moderate specific surface areas (343-656 m²/g) and pore size of 3.12-5.58 nm. The adsorption behaviour of carbon-silica composites for the removal of four silk dyes (Green 41, Blue 32, Dark red 34 and Dark gold brown 35) from aqueous solution was investigated and compared with a commercial activated carbon. The effects of adsorption time, dye concentration, pH and temperature were analyzed. The dye adsorption kinetics of all four dyes followed the pseudo-second order kinetic model, suggesting chemisorption as the dominant mechanism. Moreover, the intraparticle diffusion model showed that both internal diffusion and external diffusion were rate-limiting. The maximum adsorption capacities for all dyes were found at pH ~ 2. The equilibrium data for silk dyes adsorption were best described by the Langmuir equation, thus indicating monolayer adsorption. Thermodynamic parameters indicated that the dye adsorption was an endothermic process (ΔH > 0). The negative values of free energy (ΔG) confirmed that dye adsorption was spontaneous at the investigated temperatures (303-323 K). For all dyes, the maximum adsorption capacities of carbon-silica composites were comparable to the commercial activated carbon. The combination of vinasse with low-cost silica sources is a promising approach to produce inexpensive carbon-silica composites for application as adsorbents for dye removal from aqueous waste solutions generated during silk manufacture and dyeing.

Original language	English
Pages (from-to)	707-719
Number of pages	13
Journal	Engineering and Applied Science Research
Volume	49
Issue number	5
DOIs	https://doi.org/10.14456/easr.2022.69
Publication status	Published - 13 Sept 2022

Bibliographical note

Funding Information:
This work was supported by the Office of National Higher Education Science Research and Innovation Policy Council (NXPO) via PMU Flagship of grant number C10F630230.

Keywords

Adsorbent
Carbon-silica composite
Mesoporous
Silk dye
Vinasse

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Novel mesoporous carbon-silica composites from vinasse for the removal of dyes from aqueous silk dyeing wastesFinal published version, 1.44 MBLicence: CC BY-NC-ND

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title = "Novel mesoporous carbon-silica composites from vinasse for the removal of dyes from aqueous silk dyeing wastes",

abstract = "Novel mesoporous carbon-silica composites were prepared from vinasse, a by-product from ethanol production, as the carbon source, and sodium silicate (Na2SiO3) and potassium silicate (K2SiO3) as low-cost silica source alternatives to tetraethyl orthosilicate (TEOS). The composites were characterized for their surface area and porous properties using nitrogen adsorption-desorption porosimetry. The composites possessed a high mesopore volume (45-77%) with moderate specific surface areas (343-656 m2/g) and pore size of 3.12-5.58 nm. The adsorption behaviour of carbon-silica composites for the removal of four silk dyes (Green 41, Blue 32, Dark red 34 and Dark gold brown 35) from aqueous solution was investigated and compared with a commercial activated carbon. The effects of adsorption time, dye concentration, pH and temperature were analyzed. The dye adsorption kinetics of all four dyes followed the pseudo-second order kinetic model, suggesting chemisorption as the dominant mechanism. Moreover, the intraparticle diffusion model showed that both internal diffusion and external diffusion were rate-limiting. The maximum adsorption capacities for all dyes were found at pH ~ 2. The equilibrium data for silk dyes adsorption were best described by the Langmuir equation, thus indicating monolayer adsorption. Thermodynamic parameters indicated that the dye adsorption was an endothermic process (ΔH > 0). The negative values of free energy (ΔG) confirmed that dye adsorption was spontaneous at the investigated temperatures (303-323 K). For all dyes, the maximum adsorption capacities of carbon-silica composites were comparable to the commercial activated carbon. The combination of vinasse with low-cost silica sources is a promising approach to produce inexpensive carbon-silica composites for application as adsorbents for dye removal from aqueous waste solutions generated during silk manufacture and dyeing.",

keywords = "Adsorbent, Carbon-silica composite, Mesoporous, Silk dye, Vinasse",

author = "Tippawan Ponnikorn and Knijnenburg, {Jesper T.N.} and Macquarrie, {Duncan J.} and Yuvarat Ngernyen",

note = "Funding Information: This work was supported by the Office of National Higher Education Science Research and Innovation Policy Council (NXPO) via PMU Flagship of grant number C10F630230.",

year = "2022",

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doi = "10.14456/easr.2022.69",

language = "English",

volume = "49",

pages = "707--719",

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T1 - Novel mesoporous carbon-silica composites from vinasse for the removal of dyes from aqueous silk dyeing wastes

AU - Ponnikorn, Tippawan

AU - Knijnenburg, Jesper T.N.

AU - Macquarrie, Duncan J.

AU - Ngernyen, Yuvarat

N1 - Funding Information: This work was supported by the Office of National Higher Education Science Research and Innovation Policy Council (NXPO) via PMU Flagship of grant number C10F630230.

PY - 2022/9/13

Y1 - 2022/9/13

N2 - Novel mesoporous carbon-silica composites were prepared from vinasse, a by-product from ethanol production, as the carbon source, and sodium silicate (Na2SiO3) and potassium silicate (K2SiO3) as low-cost silica source alternatives to tetraethyl orthosilicate (TEOS). The composites were characterized for their surface area and porous properties using nitrogen adsorption-desorption porosimetry. The composites possessed a high mesopore volume (45-77%) with moderate specific surface areas (343-656 m2/g) and pore size of 3.12-5.58 nm. The adsorption behaviour of carbon-silica composites for the removal of four silk dyes (Green 41, Blue 32, Dark red 34 and Dark gold brown 35) from aqueous solution was investigated and compared with a commercial activated carbon. The effects of adsorption time, dye concentration, pH and temperature were analyzed. The dye adsorption kinetics of all four dyes followed the pseudo-second order kinetic model, suggesting chemisorption as the dominant mechanism. Moreover, the intraparticle diffusion model showed that both internal diffusion and external diffusion were rate-limiting. The maximum adsorption capacities for all dyes were found at pH ~ 2. The equilibrium data for silk dyes adsorption were best described by the Langmuir equation, thus indicating monolayer adsorption. Thermodynamic parameters indicated that the dye adsorption was an endothermic process (ΔH > 0). The negative values of free energy (ΔG) confirmed that dye adsorption was spontaneous at the investigated temperatures (303-323 K). For all dyes, the maximum adsorption capacities of carbon-silica composites were comparable to the commercial activated carbon. The combination of vinasse with low-cost silica sources is a promising approach to produce inexpensive carbon-silica composites for application as adsorbents for dye removal from aqueous waste solutions generated during silk manufacture and dyeing.

AB - Novel mesoporous carbon-silica composites were prepared from vinasse, a by-product from ethanol production, as the carbon source, and sodium silicate (Na2SiO3) and potassium silicate (K2SiO3) as low-cost silica source alternatives to tetraethyl orthosilicate (TEOS). The composites were characterized for their surface area and porous properties using nitrogen adsorption-desorption porosimetry. The composites possessed a high mesopore volume (45-77%) with moderate specific surface areas (343-656 m2/g) and pore size of 3.12-5.58 nm. The adsorption behaviour of carbon-silica composites for the removal of four silk dyes (Green 41, Blue 32, Dark red 34 and Dark gold brown 35) from aqueous solution was investigated and compared with a commercial activated carbon. The effects of adsorption time, dye concentration, pH and temperature were analyzed. The dye adsorption kinetics of all four dyes followed the pseudo-second order kinetic model, suggesting chemisorption as the dominant mechanism. Moreover, the intraparticle diffusion model showed that both internal diffusion and external diffusion were rate-limiting. The maximum adsorption capacities for all dyes were found at pH ~ 2. The equilibrium data for silk dyes adsorption were best described by the Langmuir equation, thus indicating monolayer adsorption. Thermodynamic parameters indicated that the dye adsorption was an endothermic process (ΔH > 0). The negative values of free energy (ΔG) confirmed that dye adsorption was spontaneous at the investigated temperatures (303-323 K). For all dyes, the maximum adsorption capacities of carbon-silica composites were comparable to the commercial activated carbon. The combination of vinasse with low-cost silica sources is a promising approach to produce inexpensive carbon-silica composites for application as adsorbents for dye removal from aqueous waste solutions generated during silk manufacture and dyeing.

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KW - Silk dye

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DO - 10.14456/easr.2022.69

M3 - Article

AN - SCOPUS:85138143146

SN - 2539-6161

VL - 49

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EP - 719

JO - Engineering and Applied Science Research

JF - Engineering and Applied Science Research

IS - 5

ER -

Novel mesoporous carbon-silica composites from vinasse for the removal of dyes from aqueous silk dyeing wastes

Abstract

Bibliographical note

Keywords

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