Abstract
Blood from livestock slaughtering imposes a high organic pollution load and risks. If it is discharged untreated to sewer systems, it increases the organic pollution load on wastewater treatment plants by 35–50%. This paper reviews blood anaerobic digestion. It analyzes the quantities, composition, methane potential reported, microbiology, biochemical pathways of blood protein degradation, environmental and health issues, and strategies suggested to manage them during livestock blood anaerobic digestion. Although challenging, anaerobic digestion of blood as a mono-substrate is possible if the culture-reactor system is controlled based on a complete characterization and understanding of the microbial community and its metabolic activities. Co-digestion of blood and other feedstock proceeds well if the mixtures are well designed. Generally, the specific methane yield from digesting blood alone ranges between zero and 0.45 m3 kg−1 protein, whereas for co-digesting blood and other substrates, the yield varies between 0.1 and 0.7 m3 kg−1 volatile solids. More research is required for microbiology and kinetics, the role of adsorbents, reactor configuration, and culture adaptation during anaerobic digestion of blood to better control the process.
Highlights
The livestock animal-slaughtering process generates large quantities of blood as a byproduct of high nitrogen content and high chemical oxygen demand (COD)
This paper aims to review the accessible literature on anaerobic digestion (AD) of slaughtered livestock blood and its conversion to biogas to better understand this topic’s state of the art
Blood is rich in carbon and nutrients, and can be used as feedstock for AD to recover the energy impeded in blood protein by converting it into biogas, heat, and electricity
Summary
The livestock animal-slaughtering process generates large quantities of blood as a byproduct of high nitrogen content and high chemical oxygen demand (COD). This paper aims to review the accessible literature on AD of slaughtered livestock blood and its conversion to biogas to better understand this topic’s state of the art It covers various theoretical and practical aspects of slaughterhouse blood quantities, characteristics, composition, theoret of 25 ical and experimental methane yields in batch and continuous reactors studies, concerns faced during blood AD and strategies considered to control and manage these issues, biochemical pathways, microbiology of blood anaerobic degradation in digesters, and the kinetics the knowledge gaps andand suggests directions for kinetics of ofblood bloodAD.
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