Passivation mechanism of Cu and Zn with the introduction of composite passivators during anaerobic digestion of pig manure

Passivation mechanism of Cu and Zn with the introduction of composite passivators during anaerobic digestion of pig manure

•Degradation rate of composite passivator added to organic matter reached 30.01%.•Composite passivator promoted the formation of humus.•Binding characteristics of Cu and Zn with humus were changed after digestion.•Passivators and humus played different roles in passivation of Cu and Zn. Heavy metals...

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Veröffentlicht in:Bioresource technology 2023-02, Vol.369, p.128360-128360, Article 128360
Hauptverfasser: Liu, Cunlan, Zhuang, Jie, Xue, Jinhui, Peng, Mingguo, Zhang, Wenyi, Mao, Linqiang
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Sprache:eng
Schlagworte:
Anaerobic digestion
Anaerobiosis
Animals
Biofuels
Heavy metal form
Humic Substances
Humus
Manure
Metals, Heavy - chemistry
Passivator
Pig manure
Swine
Zinc
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container_end_page 128360
container_issue
container_start_page 128360
container_title Bioresource technology
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creator Liu, Cunlan
Zhuang, Jie
Xue, Jinhui
Peng, Mingguo
Zhang, Wenyi
Mao, Linqiang
description •Degradation rate of composite passivator added to organic matter reached 30.01%.•Composite passivator promoted the formation of humus.•Binding characteristics of Cu and Zn with humus were changed after digestion.•Passivators and humus played different roles in passivation of Cu and Zn. Heavy metals in livestock manure pose a threat to the environment after biogas fertilizer being utilized, while its bioavailability is reduced substantially by passivator during the anaerobic digestion. In this study, an optimal composite passivator of humic acid, fly ash and biochar with proportion of 7.5%:7.5%:7.5% and 5.0%:7.5%:7.5% is obtained and the passivation mechanism on Cu and Zn during anaerobic digestion of pig manure is explored. The content of humic acid (HA) in biogas residue increased by 15.66–27.82%, which promoted the transformation from FA-Cu/Zn to HA-Cu/Zn and was beneficial to the passivation of Cu and Zn. The bioavailability of Cu and Zn was reduced by the adsorption and complexation at the early and middle stages of anaerobic digestion. Humic substances play a major role in the passivation of heavy metals at the late stage. The composite passivator can improve the humification degree of biogas residue and reduce heavy metal biotoxicity.
doi_str_mv 10.1016/j.biortech.2022.128360
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Heavy metals in livestock manure pose a threat to the environment after biogas fertilizer being utilized, while its bioavailability is reduced substantially by passivator during the anaerobic digestion. In this study, an optimal composite passivator of humic acid, fly ash and biochar with proportion of 7.5%:7.5%:7.5% and 5.0%:7.5%:7.5% is obtained and the passivation mechanism on Cu and Zn during anaerobic digestion of pig manure is explored. The content of humic acid (HA) in biogas residue increased by 15.66–27.82%, which promoted the transformation from FA-Cu/Zn to HA-Cu/Zn and was beneficial to the passivation of Cu and Zn. The bioavailability of Cu and Zn was reduced by the adsorption and complexation at the early and middle stages of anaerobic digestion. Humic substances play a major role in the passivation of heavy metals at the late stage. 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Heavy metals in livestock manure pose a threat to the environment after biogas fertilizer being utilized, while its bioavailability is reduced substantially by passivator during the anaerobic digestion. In this study, an optimal composite passivator of humic acid, fly ash and biochar with proportion of 7.5%:7.5%:7.5% and 5.0%:7.5%:7.5% is obtained and the passivation mechanism on Cu and Zn during anaerobic digestion of pig manure is explored. The content of humic acid (HA) in biogas residue increased by 15.66–27.82%, which promoted the transformation from FA-Cu/Zn to HA-Cu/Zn and was beneficial to the passivation of Cu and Zn. The bioavailability of Cu and Zn was reduced by the adsorption and complexation at the early and middle stages of anaerobic digestion. Humic substances play a major role in the passivation of heavy metals at the late stage. 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subjects Anaerobic digestion
Anaerobiosis
Animals
Biofuels
Heavy metal form
Humic Substances
Humus
Manure
Metals, Heavy - chemistry
Passivator
Pig manure
Swine
Zinc
title Passivation mechanism of Cu and Zn with the introduction of composite passivators during anaerobic digestion of pig manure
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