Preparation and characterization of MgO hybrid biochar and its mechanism for high efficient recovery of phosphorus from aqueous media

Yueru Fang; Amjad Ali; Yuxi Gao; Peng Zhao; Ronghua Li; Xianxian Li; Junxi Liu; Yuan Luo; Yaru Peng; Hailong Wang; Hongbin Liu; Zengqiang Zhang; Junting Pan

Preparation and characterization of MgO hybrid biochar and its mechanism for high efficient recovery of phosphorus from aqueous media

2022

Highlights Co-pyrolysis of magnesite with food waste generated MgO hybrid biochar composite. MgO hybrid biochar showed a high phosphorus recovery capacity (523.9 mg/g). Phosphorus recovery was controlled by MgHPO4 formation and electrostatic attraction. MgO hybrid biochar recovered > 98% of P from solution and bio-liquid wastewater. Recovered phosphorus is a slow-release fertilizer available for agriculture use.

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magnesite

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发表于

Biochar

卷 4 期 1 页码 1 - 15 ISSN 2524-7972 | 2524-7867

出版者

Springer

其它主题

Fertiliser; Bio-liquid wastewater; Phosphorus recovery; Biochar

语言

英语

自何时收录于AGRIS: 2024-12-11

修改日期: 2026-02-03

格式: DOAJ

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这条记录提供自 Directory of Open Access Journals

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DOI DOI https://doi.org/10.1007/s42773-022-00171-0

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Preparation and characterization of MgO hybrid biochar and its mechanism for high efficient recovery of phosphorus from aqueous media

2022

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