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Pyrolysis process as a sustainable management option of poultry manure: characterization of the derived biochars and assessment of their nutrient release capacities

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posted on 2022-08-16, 11:08 authored by Samar Hadroug, Salah Jellali, James J LeahyJames J Leahy, Marzena KwapinskaMarzena Kwapinska, Mejdi Jeguirim, Helmi Hamdi, Witold KwapinskiWitold Kwapinski
Raw poultry manure (RPM) and its derived biochars at temperatures of 400 (B400) and 600 C (B600) were physico-chemically characterized, and their ability to release nutrients was assessed under static conditions. The experimental results showed that RPM pyrolysis operation significantly a ects its morphology, surface charges, and area, as well as its functional groups contents, which in turn influences its nutrient release ability. The batch experiments indicated that nutrient release from the RPM as well as biochars attains a pseudo-equilibrium state after a contact time of about 48 h. RPM pyrolysis increased phosphorus stability in residual biochars and, in contrast, transformed potassium to a more leachable form. For instance, at this contact time, P- and K-released amounts passed from 5.1 and 25.6 mg g􀀀1 for RPM to only 3.8 and more than 43.3 mg g􀀀1 for B400, respectively. On the other hand, six successive leaching batch experiments with a duration of 48 h each showed that P and K release from the produced biochars was a very slow process since negligible amounts continued to be released even after a total duration of 12 days. All these results suggest that RPM-derived biochars have specific physico-chemical characteristics allowing them to be used in agriculture as low-cost and slow-release fertilizers.

History

Publication

Water;11, 2271

Publisher

MDPI

Note

peer-reviewed

Other Funding information

Tunisian Ministry of Higher Education and Scientific Research

Language

English

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