Towards a scalable cacao pod husk biorefinery: Understanding the effects of process conditions on phenolic antioxidant extraction and residual solid properties

Shinta R. Dewi; Lee A. Stevens; Muslih Anwar; Yujie Mao; Rebecca S. Ferrari; Derek J. Irvine; Eleanor R. Binner

doi:10.1016/j.ces.2024.121171

Towards a scalable cacao pod husk biorefinery: Understanding the effects of process conditions on phenolic antioxidant extraction and residual solid properties

Shinta R. Dewi^*, Lee A. Stevens, Muslih Anwar, Yujie Mao, Rebecca S. Ferrari, Derek J. Irvine, Eleanor R. Binner^*

^*Corresponding author for this work

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

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Abstract

Cacao pod husk (CPH) is a potential source of phenolic-based antioxidants and lignocellulosic compounds. Sample pretreatments and extraction conditions were investigated to understand their effects on extraction yields and implications for industrial-scale CPH biorefinery. All processing parameters showed significant effects (p-value < 0.001) on extraction yields, where solvent selection and size reduction were the most influential parameters (η2 > 0.92). CPH extracts contained 3.3–215.1 mg GAE/g dw of phenolics, 0.01–0.38 mg Cy3GE/g dw of anthocyanin and 0.86–22.5 mg TE/g dw of antioxidant activity, making it useful as antioxidants. CPH solid residues, rich in lignocellulosic compounds (23 % of lignin, 37 % of cellulose and 22 – 26 % of hemicellulose), volatile matter (62–65 %) and fixed carbon (21–25 %), are promising as pyrolysis or activated carbon precursors. These findings offer recommendations for large-scale extraction, including maximising CPH solid residue for bioenergy and activated carbon production, integrated into CPH biorefinery units.

Original language	English
Article number	121171
Number of pages	15
Journal	Chemical Engineering Science
Volume	305
Early online date	31 Dec 2024
DOIs	https://doi.org/10.1016/j.ces.2024.121171
Publication status	Published - 15 Feb 2025

Bibliographical note

Keywords

Biorefinery
Cocoa pod husk
Phenolic compounds
Antioxidant
Solid residue
Process scale-up

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10.1016/j.ces.2024.121171Licence: CC BY 4.0

Towards a scalable cacao pod husk biorefinery
Copyright © 2025 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license ( https://creativecommons.org/licenses/by/4.0/ ).
Final published version, 3.72 MBLicence: CC BY 4.0

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title = "Towards a scalable cacao pod husk biorefinery: Understanding the effects of process conditions on phenolic antioxidant extraction and residual solid properties",

abstract = "Cacao pod husk (CPH) is a potential source of phenolic-based antioxidants and lignocellulosic compounds. Sample pretreatments and extraction conditions were investigated to understand their effects on extraction yields and implications for industrial-scale CPH biorefinery. All processing parameters showed significant effects (p-value < 0.001) on extraction yields, where solvent selection and size reduction were the most influential parameters (η2 > 0.92). CPH extracts contained 3.3–215.1 mg GAE/g dw of phenolics, 0.01–0.38 mg Cy3GE/g dw of anthocyanin and 0.86–22.5 mg TE/g dw of antioxidant activity, making it useful as antioxidants. CPH solid residues, rich in lignocellulosic compounds (23 % of lignin, 37 % of cellulose and 22 – 26 % of hemicellulose), volatile matter (62–65 %) and fixed carbon (21–25 %), are promising as pyrolysis or activated carbon precursors. These findings offer recommendations for large-scale extraction, including maximising CPH solid residue for bioenergy and activated carbon production, integrated into CPH biorefinery units.",

keywords = "Biorefinery, Cocoa pod husk, Phenolic compounds, Antioxidant, Solid residue, Process scale-up",

author = "Dewi, {Shinta R.} and Stevens, {Lee A.} and Muslih Anwar and Yujie Mao and Ferrari, {Rebecca S.} and Irvine, {Derek J.} and Binner, {Eleanor R.}",

note = "Copyright {\textcopyright} 2025 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license ( https://creativecommons.org/licenses/by/4.0/ ).",

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AU - Dewi, Shinta R.

AU - Stevens, Lee A.

AU - Anwar, Muslih

AU - Mao, Yujie

AU - Ferrari, Rebecca S.

AU - Irvine, Derek J.

AU - Binner, Eleanor R.

PY - 2025/2/15

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N2 - Cacao pod husk (CPH) is a potential source of phenolic-based antioxidants and lignocellulosic compounds. Sample pretreatments and extraction conditions were investigated to understand their effects on extraction yields and implications for industrial-scale CPH biorefinery. All processing parameters showed significant effects (p-value < 0.001) on extraction yields, where solvent selection and size reduction were the most influential parameters (η2 > 0.92). CPH extracts contained 3.3–215.1 mg GAE/g dw of phenolics, 0.01–0.38 mg Cy3GE/g dw of anthocyanin and 0.86–22.5 mg TE/g dw of antioxidant activity, making it useful as antioxidants. CPH solid residues, rich in lignocellulosic compounds (23 % of lignin, 37 % of cellulose and 22 – 26 % of hemicellulose), volatile matter (62–65 %) and fixed carbon (21–25 %), are promising as pyrolysis or activated carbon precursors. These findings offer recommendations for large-scale extraction, including maximising CPH solid residue for bioenergy and activated carbon production, integrated into CPH biorefinery units.

AB - Cacao pod husk (CPH) is a potential source of phenolic-based antioxidants and lignocellulosic compounds. Sample pretreatments and extraction conditions were investigated to understand their effects on extraction yields and implications for industrial-scale CPH biorefinery. All processing parameters showed significant effects (p-value < 0.001) on extraction yields, where solvent selection and size reduction were the most influential parameters (η2 > 0.92). CPH extracts contained 3.3–215.1 mg GAE/g dw of phenolics, 0.01–0.38 mg Cy3GE/g dw of anthocyanin and 0.86–22.5 mg TE/g dw of antioxidant activity, making it useful as antioxidants. CPH solid residues, rich in lignocellulosic compounds (23 % of lignin, 37 % of cellulose and 22 – 26 % of hemicellulose), volatile matter (62–65 %) and fixed carbon (21–25 %), are promising as pyrolysis or activated carbon precursors. These findings offer recommendations for large-scale extraction, including maximising CPH solid residue for bioenergy and activated carbon production, integrated into CPH biorefinery units.

KW - Biorefinery

KW - Cocoa pod husk

KW - Phenolic compounds

KW - Antioxidant

KW - Solid residue

KW - Process scale-up

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Towards a scalable cacao pod husk biorefinery: Understanding the effects of process conditions on phenolic antioxidant extraction and residual solid properties

Abstract

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Keywords

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