Targeting Microorganisms in Lignocellulosic Biomass to Produce Biogas and Ensure Sanitation and Hygiene
Christy Echakachi Manyi-Loh, Stephen Loh Tangwe, Ryk Lues

TL;DR
This paper reviews how anaerobic digestion of organic waste can produce biogas, sanitize waste, and create biofertilizer, offering a sustainable solution to waste management and energy needs.
Contribution
The paper provides a comprehensive synthesis of anaerobic digestion's role in energy production, sanitation, and waste management across multiple studies and regions.
Findings
Anaerobic digestion effectively converts lignocellulosic waste into biogas and biofertilizer while reducing microbial contamination.
The process inactivates harmful bacteria and antibiotic resistance genes, improving waste safety for land application.
Variations in microbial susceptibility and environmental factors influence digestion efficiency and sanitization outcomes.
Abstract
Microbial components are part of the composition of all waste, including lignocellulosic biomass (e.g., agricultural, domestic, industrial, and municipal wastes) generated via human activities. If little attention is given to these wastes or if they are not adequately managed, they tend to end up in the environment (soil, water, and farmland), decomposing naturally through microbial activities, producing greenhouse gases, causing eutrophication, preventing sunlight penetration, and depleting oxygen in the water. Several treatment methods are applicable to these wastes. However, anaerobic digestion is presented as the best option to properly treat the waste. It is regarded as the best technique to achieve sustainable energy development in both developing and developed countries. During anaerobic digestion, the organic matter in the waste is converted via the concerted activities of…
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Taxonomy
TopicsAnaerobic Digestion and Biogas Production · Composting and Vermicomposting Techniques · Biofuel production and bioconversion
