Progress in microbial fuel cell technology for wastewater treatment and energy harvesting
The global energy crisis has stimulated the development of various forms of green energy
technology such as microbial fuel cells (MFCs) that can be applied synergistically and …
technology such as microbial fuel cells (MFCs) that can be applied synergistically and …
[HTML][HTML] Coupling dark fermentation and microbial electrolysis cells for higher hydrogen yield: Technological competitiveness and challenges
Hydrogen (H 2) is considered as a renewable energy source which has the potential to
replace the fossil fuel-based economy. When it comes to achieve H 2 production in a …
replace the fossil fuel-based economy. When it comes to achieve H 2 production in a …
Biohydrogen upgradation and wastewater treatment in 3-chambered bioelectrochemical system assisted with H2/O2-based redox reactions
The current need for the upgradation of biohydrogen generation and contaminant removal in
two-chambered microbial electrolysis cells (MECs) compels the design of alternatives ie …
two-chambered microbial electrolysis cells (MECs) compels the design of alternatives ie …
Utilizing orange peel waste biomass in textile wastewater treatment and its recyclability for dual biogas and biochar production: a techno-economic sustainable …
Orange peel is a fruit-based biomass produced in huge quantities worldwide, requiring an
appropriate management strategy to meet the waste-to-wealth approach. In the current …
appropriate management strategy to meet the waste-to-wealth approach. In the current …
Performance efficiency comparison of microbial electrolysis cells for sustainable production of biohydrogen—A comprehensive review
Microbial electrolysis cells (MECs) are one of the most promising innovation amongst bio‐
electrochemical systems for biohydrogen production. A wide variety of wastewaters and …
electrochemical systems for biohydrogen production. A wide variety of wastewaters and …
Microbial electrolysis cell as a diverse technology: Overview of prospective applications, advancements, and challenges
Microbial electrolysis cells (MECs) have been explored for various applications, including
the removal of industrial pollutants, wastewater treatment chemical synthesis, and …
the removal of industrial pollutants, wastewater treatment chemical synthesis, and …
Biohydrogen production in microbial electrolysis cells utilizing organic residue feedstock: a review
LS Jensen, C Kaul, NB Juncker, MH Thomsen… - Energies, 2022 - mdpi.com
The need for renewable and sustainable fuel and energy storage sources is pressing.
Biohydrogen has the potential to be a storable energy carrier, a direct fuel and a diverse …
Biohydrogen has the potential to be a storable energy carrier, a direct fuel and a diverse …
Microbial electrolysis: a promising approach for treatment and resource recovery from industrial wastewater
Wastewater is one of the most common by-products of almost every industrial process.
Treatment of wastewater alone, before disposal, necessitates an excess of energy …
Treatment of wastewater alone, before disposal, necessitates an excess of energy …
Proposal of Multicriteria Decision-Making Models for Biogas Production
While biogas production offers promising solutions for waste management, energy
diversification, and sustainable development, effective project implementation requires …
diversification, and sustainable development, effective project implementation requires …
Biohydrogen production from wastewater: production technologies, environmental and economic aspects
GOR e Silva, TG Carpanez, CR Dos Santos… - Journal of …, 2024 - Elsevier
Abstract Biohydrogen (bio-H 2) production from wastewater can be a sustainable and
innovative approach that uses biotechnological processes to convert organic waste into …
innovative approach that uses biotechnological processes to convert organic waste into …