Real-time operation of municipal anaerobic digestion using an ensemble data mining framework
Real-time operation of municipal anaerobic digestion using an ensemble data mining framework
This study presents a novel approach for real-time operation of anaerobic digestion using an ensemble decision-making framework composed of weak learner data mining models. The framework utilises simple but practical features such as waste composition, added water and feeding volume to predict biogas yield and to generate an optimised weekly operation pattern to maximise biogas production and minimise operational costs. The effectiveness of this framework is validated through a real-world case study conducted in the UK. Comparative analysis with benchmark models demonstrates a significant improvement in prediction accuracy, increasing from the range of 50–80% with benchmark models to 91% with the proposed framework. The results also show the efficacy of the weekly operation pattern, which leads to a substantial 78% increase in biogas generation during the testing period. Moreover, the pattern contributes to a reduction of 71% in total days required for feeding and 30% in total days required for pre-feeding.
Anaerobic digestion, Biogas generation, Data mining, Ensemble modelling, Organic waste, Real-time operation
Piadeh, Farzad
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Offie, Ikechukwu
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Behzadian, Kourosh
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Bywater, Angela
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Campos, Luiza C.
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January 2024
Piadeh, Farzad
c21528dc-8cc8-452f-8c01-5485db1141f2
Offie, Ikechukwu
2db5cd99-8e73-43cb-8ff5-c598a856bf86
Behzadian, Kourosh
aa11ac19-08d4-4825-9a6c-d23b88b2160e
Bywater, Angela
293fa6f5-71eb-4b69-a24c-58753b58ed4c
Campos, Luiza C.
c5a66b11-970b-4f6f-88a9-0aadf178b06d
Piadeh, Farzad, Offie, Ikechukwu, Behzadian, Kourosh, Bywater, Angela and Campos, Luiza C.
(2024)
Real-time operation of municipal anaerobic digestion using an ensemble data mining framework.
Bioresource Technology, 392, [130017].
(doi:10.1016/j.biortech.2023.130017).
Abstract
This study presents a novel approach for real-time operation of anaerobic digestion using an ensemble decision-making framework composed of weak learner data mining models. The framework utilises simple but practical features such as waste composition, added water and feeding volume to predict biogas yield and to generate an optimised weekly operation pattern to maximise biogas production and minimise operational costs. The effectiveness of this framework is validated through a real-world case study conducted in the UK. Comparative analysis with benchmark models demonstrates a significant improvement in prediction accuracy, increasing from the range of 50–80% with benchmark models to 91% with the proposed framework. The results also show the efficacy of the weekly operation pattern, which leads to a substantial 78% increase in biogas generation during the testing period. Moreover, the pattern contributes to a reduction of 71% in total days required for feeding and 30% in total days required for pre-feeding.
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More information
Accepted/In Press date: 10 November 2023
e-pub ahead of print date: 13 November 2023
Published date: January 2024
Additional Information:
Publisher Copyright:
© 2023 The Author(s)
Keywords:
Anaerobic digestion, Biogas generation, Data mining, Ensemble modelling, Organic waste, Real-time operation
Identifiers
Local EPrints ID: 485903
URI: http://eprints.soton.ac.uk/id/eprint/485903
ISSN: 0960-8524
PURE UUID: b31b378e-a0ed-43ff-a0eb-21eab446711f
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Date deposited: 04 Jan 2024 01:22
Last modified: 25 Apr 2024 01:45
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Contributors
Author:
Farzad Piadeh
Author:
Ikechukwu Offie
Author:
Kourosh Behzadian
Author:
Luiza C. Campos
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