Optimizing Anaerobic Co-Digestion Formula of Agro-Industrial Wastes in Semi-Continuous Regime

Optimizing Anaerobic Co-Digestion Formula of Agro-Industrial Wastes in Semi-Continuous Regime

The actual environmental and energy crises are two of the main problems existing in the world. Among the different technologies that can be implemented is anaerobic digestion, which employs waste and renewable biomass materials. To reach the optimum ratio of different raw materials or substrates in...

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Bibliographic Details
Main Authors: Ana I. Parralejo, Jerónimo González, Luis Royano, Juan F. González
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Energies
Subjects:
semi-continuous assays
anaerobic digestion
interactions
methane yield
Organic Load Rate
Online Access:https://www.mdpi.com/1996-1073/18/7/1689
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Summary:The actual environmental and energy crises are two of the main problems existing in the world. Among the different technologies that can be implemented is anaerobic digestion, which employs waste and renewable biomass materials. To reach the optimum ratio of different raw materials or substrates in the feed of digesters, laboratory tests are necessary. This work aims to study the increase in the Organic Load Rate (OLR) (1 g VS L<sup>−1</sup>d<sup>−1</sup>, 2 g VS L<sup>−1</sup>d<sup>−1</sup>, 3 g VS L<sup>−1</sup>d<sup>−1</sup> and 4 g VS L<sup>−1</sup>d<sup>−1</sup>, VS: Volatile Solid) and the raw materials number (sorghum (S), pig manure (P), triticale (T), corn stover (C) and microalgae biomass (M)) in the feedstock of the anaerobic digestion process. Mean values of methane yields for the evaluated set were lower in SMP and SMPTC assays (149.80 L<sub>CH4</sub> kg VS<sup>−1</sup> and 157.15 L<sub>CH4</sub> kg VS<sup>−1</sup>, respectively) than SP, SM and SMPT assays (195.09 L<sub>CH4</sub> kg VS<sup>−1</sup>, 197.69 L<sub>CH4</sub> kg VS<sup>−1</sup> and 195.76 L<sub>CH4</sub> kg VS<sup>−1</sup>, respectively). Along the experiments, several parameters were evaluated, along with their interactions with OLR and number of raw materials. Two kinetic models were employed to fit the COD (Chemical Oxygen Demand) removal results.
ISSN:1996-1073

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