Role of Microbial Hydrolysis in Anaerobic Digestion: Enhancing Biogas Production Efficiency

Abstract

The first step of anaerobic digestion and the core of what makes anaerobic digestion efficient is microbial hydrolysis. Anaerobic digestion is often referred to as biogas or VOC generation; it is one of the most significant elements in solid waste management and renewable energy. This is the breakdown of organic waste materials into methane (CH₄) and carbon dioxide (CO₂). An understanding of these simpler substrates is critical to subsequent fermentation stages that produce biogas. However, microbial hydrolysis often acts as a rate-limiting step, particularly in complex substrates like lignocellulosic biomass. This paper provides an overview of the role of microbial hydrolysis in AD systems toward better yields of biogas and greater process efficiency.

This paper discusses some of the ways to optimize hydrolysis efficiency, including adding a hydrolysis phase separately to guarantee optimal conditions for the hydrolytic microorganisms and integrating techniques of pretreatment: biological, chemical, and physical, to speed up the degradation of substrates. Biological approaches of pretreatment using fungi, chemical procedures with alkaline or acidic solutions, and physical methods with mechanical shredding and thermal treatments were reportedly very promising for the increased hydrolysis rates.

Moreover, the paper depicts the optimization of steps for hydrolysis towards a better assimilation of biogas systems into material cycles. Enhanced microbial hydrolysis would eventually result in increased yields of biogas, better conversion of waste streams, and reduced emissions of greenhouse gases. This has been put forward along with the inhibitory effects of toxic compounds on microbial activity and the economic viability of pretreatment methods. Finally, the paper brings up to date potential solutions towards solving such challenges and increasing the economic and environmental sustainability of AD systems.