Strategies for energy conversion from sludge to methane through pretreatment coupled anaerobic digestion: Potential energy loss or gain

Anaerobic digestion (AD) of wasted activated sludge from wastewater plants is recognized as an effective method to reclaim energy in the form of methane. AD performance has been enhanced by coupling various pretreatments that impact energy conversion from sludge. This paper mainly reviewed the development of pretreatments based on different technologies reported in recent years and evaluated their energy benefit. Significant increases in methane yield are generally obtained in AD with pretreatments demanding energy input, including thermal-and ultrasound-based methods. However, these energy-intense pretreatments usually gained negative energy benefit that the increase in methane yield consumed extra energy input. The unbalanced relationship counts against the goal of energy reclamation from sludge. Combined pretreatment consisting of multiple technologies normally outcompetes the single pretreatment, and the combination of energy-intense methods and chemicals potentially reduces energy input and simultaneously ensure high methane yield. For determining whether the energy reclamation from sludge via AD contribute to mitigating global warming, integrating greenhouse gas emission into the evaluation system of pretreated AD is further warranted.

Automated summary

This paper reviewed the development of pretreatments based on different technologies for anaerobic digestion and evaluated their energy benefit. Energy-intense pretreatments, such as thermal and ultrasound-based methods, generally result in significant increases in methane yield but consume extra energy input. On the other hand, combined pretreatment consisting of multiple technologies and the combination of energy-intense methods and chemicals potentially reduce energy input and ensure high methane yield. Integrating greenhouse gas emission into the evaluation system of pretreated anaerobic digestion is further warranted.