Electric-Field Nanobubble-Enhanced Progress in Anaerobic Digestion Unit Operations: Biogas Upgrading and Up- and Down-Stream Water and Sludge Treatment Operations
Niall J. English

TL;DR
This paper introduces a new method using electric fields to create nanobubbles for improving biogas purification and wastewater treatment in anaerobic digestion.
Contribution
A novel electric-field-based nanobubble formation method is introduced for efficient biogas upgrading and waste treatment.
Findings
Electric fields enable selective CO2 and H2S removal from biogas via nanobubbles, enriching methane to 95–98%.
Nanobubbles generated from various gases improved up- and down-stream wastewater and sludge treatment.
The method supports low-energy CO2 capture and circular economic practices in anaerobic digestion.
Abstract
An integrated approach is sorely needed to treat biogas emanating from anaerobic digesters (AD) which is cost-effective, in terms of upgrade/purification to ~95–98% methane needed for pipeline injection. This is a very pressing environmental and waste-management problem. At present, biogas water-/solvent-washing operations require significant capital investment, with high operational and maintenance costs. In the present study, we deployed a facile and efficient novel nanobubble-formation approach using applied electric fields to boost biogas-enrichment operations: we achieve substantial methane enrichment via selective CO2 and H2S take-up in water in the form of nanobubbles. This enables an integrated waste-processing vision using cutting-edge engineering-science advances, and making anaerobic digestion a circular-economic and practical reality, that can be deployed at scale—initially…
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Taxonomy
TopicsMinerals Flotation and Separation Techniques · Microbial Fuel Cells and Bioremediation · Membrane Separation Technologies
