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32 Microbiology of Biogas Production from Food Waste: Current Status, Challenges, and Future Needs
found to be 6.7–7.4. Fruit industry waste and certain urban solid waste feedstocks
are known to initiate high VFA flux with drop in pH which has an inhibitory effect
on methanogenic bacteria [3]. The methane workers are inhibited when the pH falls
below 4.2 in reactor operation. The amount of volatile acids produced and the alka-
linity in the reactor control the pH of the liquid undergoing anaerobic digestion.
If a large amount of readily digestible organic matter were added suddenly, excess
amounts of acids would be produced and will lower the pH. When this occurs, the
methane formers slow down; they cannot keep up with the acid formers, and volatile
acids accumulate in the reactor. The pH values in anaerobic reactors are mainly the
result of the presence of weak acids (carbon dioxide, VFA, hydrogen sulfide) and
weak bases (ammonia), which buffer the wastewater [6].
32.7.3
VFA
Acetic, propionic, and butyric acids are the common VFA produced in the initial
stages of biogas process in an AD. VFA levels above 6 g/l of acetic acid equivalent are
known to decrease the functioning of methanogenic microflora. Beyond this level,
the long-chain VFA was found to be detrimental to several bacteria and thereby
limiting essential process in the anaerobic digester. Application of pretreatment
methods was found to control VFA accumulation [3]. Methanosarcina was more
efficient at higher concentration of VFA than Methanothrix which was important
for granulation in upflow anaerobic sludge blanket (UASB) system. In a healthy
reactor, the volatile acids of the digesting reactor content usually run in the range
of 2500–3500 mg/l expressed as acetic acid [6, 7].
32.7.4
Microbial Consortia in AD
The structure of the microbial community varies in different biogas digesters,
depending on parameters such as type of substrate, operational conditions, etc.
However, abundance microorganism is considered to improve stability and to
decrease the risk of disturbances of biogas process. Generally, the bacteria dominate
the microbial community, whereas the methanogenic bacteria only represent a few
percentages of the total microbial flora as shown in Figure 32.2 [8].
Generally, hydrolysis of the agro-residue and feedstock with minimal processing
is the rate-limiting step in the AD process. The growth of acidogens was faster than
methanogens. The methanogens dominating during short solid retention time (SRT)
and long SRT were Methanosarcina and Methanothrix, respectively. The dry biomass
feedstock has low key microbial inoculum as compared to the animal-based feed-
stock essential for the generation of biogas [3].
The microbial consortia in chicken droppings inoculum included Cam-
phylobacter spp., Bacillus cereus, Staphylococcus epidermidis, Staphylococcus
aureus, Rhizopus spp., and Aspergillus spp., Yersinia enterocolitica, Clostridium,
Methanosarcina, Methanobacterium, Aspergillus, and Penicillium species. AD
in fabricated laboratory-scale biodigester with feedstock of chicken dropping,
vegetable waste, animal waste, and fruit waste in the ratio of 1 : 1 : 1 : 1 generated