What question did this study set out to answer?

To evaluate the production of biochar from corncob and khat waste using multi-purpose pyrolysis stoves.

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March 15, 2026Open Access

Valorization of Corncob and Khat Waste into Biochar via Decentralized Multi-Purpose Pyrolysis Stoves

Key Points

To evaluate the production of biochar from corncob and khat waste using multi-purpose pyrolysis stoves.
Production of biochar via allo-thermal and auto-thermal pyrolysis stoves.
Characterization of biochar by particle size, ash content, pH, and electrical conductivity.
Fractionation of biochar into four particle sizes.
Auto-thermal pyrolysis at up to 800 °C produced biochar with higher ash content and pH than allo-thermal pyrolysis at 350 °C.
Electrical conductivity of auto-thermal khat biochar reached 6.6 mS/cm, compared to 0.38 mS/cm for coarse allo-thermal corncob.
Khat waste yielded higher quality biochar than corncob, indicating its mineral richness.

Abstract

The escalating global waste crisis necessitates sustainable valorization strategies, with biochar production emerging as a promising solution for converting organic residues into a carbon-rich material. This study evaluated biochar derived from corncob and khat waste pyrolyzed using allo-thermal and auto-thermal multi-purpose stoves. Biochar was fractionated into four particle sizes (>2 mm, 1–2 mm, 0.6–1 mm, and 2 mm) to 6.6 mS/cm (<0.6 mm). This study demonstrates that decentralized biochar production using multi-purpose stoves can yield materials with tunable properties, and that khat waste—an underutilized regional resource—shows particular promise for producing high-ash, high-EC biochar suitable for acidic soil amendment.

Valorization of Corncob and Khat Waste into Biochar via Decentralized Multi-Purpose Pyrolysis Stoves

Key Points

Abstract

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