THE EFFECTIVENESS OF IRON-BASED ADDITIVES IN ENHANCING METHANE AND HYDROGEN PRODUCTION: A SYSTEMATIC REVIEW

Cristhian Chicaiza-Ortiz; Christian Camacho; Ángel Chicaiza-Ortiz; Zhang Beihan; Dai Jiangyue; Washington Logroño; Jingxin Zhang

doi:10.1049/icp.2023.2243

THE EFFECTIVENESS OF IRON-BASED ADDITIVES IN ENHANCING METHANE AND HYDROGEN PRODUCTION: A SYSTEMATIC REVIEW

Cristhian Chicaiza-Ortiz, Christian Camacho, Ángel Chicaiza-Ortiz, Zhang Beihan, Dai Jiangyue, Washington Logroño, Jingxin Zhang

Facultad de Ciencias Socio Ambientales

Producción científica: Contribución a una revista › Artículo de la conferencia › revisión exhaustiva

2 Citas (Scopus)

Resumen

The proper treatment of animal manure, sewage biosolids, agricultural by-products, and food waste is becoming increasingly vital due to environmental concerns. Hydrogen is currently regarded as a clean energy source with a high energy density, whereas methane has been utilized extensively. Using anaerobic digestion, biohydrogen and methane are produced. Alternative performance-influencing factors, such as metallic nanoparticles and process optimization, must be identified. Consequently, iron-based materials are inexpensive and effective; however, if the threshold is exceeded, the biological process may be inhibited. This review focuses on analyzing the most recent advancements in the biological process enhanced by iron-based materials, the current state of knowledge, identifying the gaps for future research, methods for studying microbial communities, and promising new materials. It was supplemented by a bibliographic analysis that evaluated the difficulties of large-scale facilities and emphasized the economic implications and strategies for recovering iron-based materials. This article discusses possible future directions for research.

Idioma original	Inglés
Páginas (desde-hasta)	734-744
Número de páginas	11
Publicación	IET Conference Proceedings
Volumen	2023
N.º	15
DOI	https://doi.org/10.1049/icp.2023.2243
Estado	Publicada - 2023
Evento	12th International Conference on Renewable Power Generation, RPG 2023 - Shanghai, China Duración: 14 oct. 2023 → 15 oct. 2023

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© The Institution of Engineering & Technology 2023.

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title = "THE EFFECTIVENESS OF IRON-BASED ADDITIVES IN ENHANCING METHANE AND HYDROGEN PRODUCTION: A SYSTEMATIC REVIEW",

abstract = "The proper treatment of animal manure, sewage biosolids, agricultural by-products, and food waste is becoming increasingly vital due to environmental concerns. Hydrogen is currently regarded as a clean energy source with a high energy density, whereas methane has been utilized extensively. Using anaerobic digestion, biohydrogen and methane are produced. Alternative performance-influencing factors, such as metallic nanoparticles and process optimization, must be identified. Consequently, iron-based materials are inexpensive and effective; however, if the threshold is exceeded, the biological process may be inhibited. This review focuses on analyzing the most recent advancements in the biological process enhanced by iron-based materials, the current state of knowledge, identifying the gaps for future research, methods for studying microbial communities, and promising new materials. It was supplemented by a bibliographic analysis that evaluated the difficulties of large-scale facilities and emphasized the economic implications and strategies for recovering iron-based materials. This article discusses possible future directions for research.",

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year = "2023",

doi = "10.1049/icp.2023.2243",

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AU - Chicaiza-Ortiz, Cristhian

AU - Camacho, Christian

AU - Chicaiza-Ortiz, Ángel

AU - Beihan, Zhang

AU - Jiangyue, Dai

AU - Logroño, Washington

AU - Zhang, Jingxin

N1 - Publisher Copyright: © The Institution of Engineering & Technology 2023.

PY - 2023

Y1 - 2023

N2 - The proper treatment of animal manure, sewage biosolids, agricultural by-products, and food waste is becoming increasingly vital due to environmental concerns. Hydrogen is currently regarded as a clean energy source with a high energy density, whereas methane has been utilized extensively. Using anaerobic digestion, biohydrogen and methane are produced. Alternative performance-influencing factors, such as metallic nanoparticles and process optimization, must be identified. Consequently, iron-based materials are inexpensive and effective; however, if the threshold is exceeded, the biological process may be inhibited. This review focuses on analyzing the most recent advancements in the biological process enhanced by iron-based materials, the current state of knowledge, identifying the gaps for future research, methods for studying microbial communities, and promising new materials. It was supplemented by a bibliographic analysis that evaluated the difficulties of large-scale facilities and emphasized the economic implications and strategies for recovering iron-based materials. This article discusses possible future directions for research.

AB - The proper treatment of animal manure, sewage biosolids, agricultural by-products, and food waste is becoming increasingly vital due to environmental concerns. Hydrogen is currently regarded as a clean energy source with a high energy density, whereas methane has been utilized extensively. Using anaerobic digestion, biohydrogen and methane are produced. Alternative performance-influencing factors, such as metallic nanoparticles and process optimization, must be identified. Consequently, iron-based materials are inexpensive and effective; however, if the threshold is exceeded, the biological process may be inhibited. This review focuses on analyzing the most recent advancements in the biological process enhanced by iron-based materials, the current state of knowledge, identifying the gaps for future research, methods for studying microbial communities, and promising new materials. It was supplemented by a bibliographic analysis that evaluated the difficulties of large-scale facilities and emphasized the economic implications and strategies for recovering iron-based materials. This article discusses possible future directions for research.

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THE EFFECTIVENESS OF IRON-BASED ADDITIVES IN ENHANCING METHANE AND HYDROGEN PRODUCTION: A SYSTEMATIC REVIEW

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