Publication: Sustainable recovery from pig slurry using ionic liquid microbial fuel cells and microalgae consortia
Authors
Iniesta López, Eduardo ; Micol Blaya, Alfredo José ; Hernández Fernández, Adrián ; Sánchez Zurano, Ana ; Garrido, Yolanda ; Pérez de Los Ríos, Antonia ; Hernández Fernández, Francisco José
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Facultades de la UMU::Facultad de Química
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Publisher
Springer
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DOI
https://doi.org/10.1007/s00253-025-13686-w
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info:eu-repo/semantics/article
Description
Abstract
Pig slurry management has emerged as a pressing environmental challenge in the context of rapid population growth and intensified livestock production, highlighting the need for sustainable recovery technologies. While microalgae–bacteria (MB) systems offer promising opportunities for nutrient recycling, the high turbidity of raw pig slurry (PS) typically limits their direct application. This study proposes an innovative two-step treatment that combines microbial fuel cells (MFCs) with MB consortia to enhance both pollutant removal and resource recovery from raw PS with COD levels exceeding 18,000 mg·L⁻1. Unlike conventional designs relying on perfluorinated membranes, the MFCs employed an ionic liquid [N8-10,8–10,8–10,1+][Cl−] as a proton exchange medium, achieving 50% of COD removal and generating 57.27 ± 10.99 mW·m⁻2. The effluent was subsequently treated with MB consortia, yielding biomass productivities of 0.1 to 0.2 g·L⁻1·day⁻1, comparable to chemical fertilizer-based controls. Cell density with pre-treated and untreated pig slurry also matched control levels. In pollutant recovery, the combined microbial fuel cell and microalgae-bacteria treatment achieved up to 67% recovery of COD, over 99% of N-NH4+, and between 65 and 85% of P-PO43−. These findings highlight the potential of integrating MFCs with MB consortia as a strategy for raw pig slurry management, t-ransforming waste into renewable energy and bioresources
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Citation
Appl Microbiol Biotechnol 110, 9 (2026)
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