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Phosphate adsorption using biochar derived from solid digestate

Anaerobic co-digestion of food waste and manure is an increasingly common waste management strategy. However, current disposal alternatives for the resulting effluent, “digestate”, can lead to nutrient run-off and cause surface and groundwater contamination. Biochar made from the solid fraction of d...

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Bibliographic Details
Published in:Bioresource technology reports 2021-12, Vol.16, p.100864, Article 100864
Main Authors: Rodríguez Alberto, Diana, Tyler, Anna Christina, Trabold, Thomas A.
Format: Article
Language:English
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Summary:Anaerobic co-digestion of food waste and manure is an increasingly common waste management strategy. However, current disposal alternatives for the resulting effluent, “digestate”, can lead to nutrient run-off and cause surface and groundwater contamination. Biochar made from the solid fraction of digestate was used to recover nutrients present in the liquid fraction of the same effluent stream. Biochar produced from solid digestate at three different temperatures (500, 800 and 1000 °C) was characterized and evaluated for adsorption of phosphate in solution and from liquid digestate. Pyrolysis temperature was negatively related to yield. However, higher processing temperatures (800 °C–1000 °C) are preferred due to better soil stability and phosphate adsorption capacity. Additional analysis to determine the potential to replicate this process at scale concluded that the amount of solid digestate biochar produced is sufficient to adsorb approximately 20% of the total phosphate present in the liquid fraction of the digestate. [Display omitted] •Anaerobic co-digestion turns food waste into a valuable energy product.•Residual digestate disposal is a challenge for digester operation.•Biochar was synthesized from digestate solids at varying temperatures.•Biochar adsorption capacity increased significantly with production temperature.•Digestate biochar can potentially adsorb 20% of the phosphate in the effluent.
ISSN:2589-014X
2589-014X
DOI:10.1016/j.biteb.2021.100864