Food processing industries e.g., to

Food processing industries e.g., tofu-, cereal-, cheese- and
potato-processing industries generate huge amount of wastewater
with high concentrations of sugars and starch (Van-Ginkel et al.,
2005). Utilization of these wastes for biohydrogen production
benefits food processing industries since they can use the energy as
a source of electricity. Table 3 lists the types of food processing
waste from industrial effluent being used as feedstock for biohydrogen
production. Apple pomace, pineapple waste, mixed fruit
peels, and fully ripened fruits such as apples, pears and grapes
which are high in sugar content but do not have market value, are
attractive substrates for the production of biohydrogen (Doi et al.,
2010; Vijayaraghavan et al., 2007; Feng et al., 2010; Hwang et al.,
2011).
Using fully ripened fruits and tofu-processing waste, Hwang
et al. (2011) and Kim and Lee (2010) obtained hydrogen yields of
2.2 and 2.3 mol H2 mol1 glucose, respectively. However, tofuprocessing
waste required pre-treatment such as heat- and acidtreatment
of the substrate to increase the soluble carbohydrate
content in the feedstock (Kim and Lee, 2010; Kim et al., 2011a,
2011b). The use of cheese whey, rich in protein, also resulted in
high biohydrogen yields of 122 mL H2 L1 media d1 and
2.8 mol H2 mol1 hexose from the experiments conducted by
Castello et al. (2009) and Davila-Vazquez et al. (2009), respectively.
On the other hand, only 0.79 mol H2 mol1 glucose was
obtained using cereal wastewater by Oh and Logan (2005) as
shown in Table 3. Mixed microbial culture was used as the seed
culture in all the studies. Based on our literature search, only