4 shows the variations of COD, TOC

4 shows the variations of COD, TOC and BOD5 in the different
reactor effluent. As it could be seen, 81.1% of COD and 76.1% of
TOC were removed in Reactor A. Since the concentration of DO in
the recirculated ZVI effluent was 4–6 mg l−1, part of organic compounds
would be biodegraded by aerobic microorganisms at the
lower location of Reactor A. Besides aerobic biodegradation, denitrification
and dilution of the recirculation were of significance
to the reduction of the organic compounds in Reactor A effluent.
Fig. 3. COD variation in the influent and in the ZVI effluent.
Fig. 4. Variation of COD, BOD5 and TOC in the different reactors.
TOC removal efficiencies of Reactor O1, O2 and ZVI were 38.7, 12.5
and 30.4%, respectively. It was indicated that Reactor O1 and ZVI
removed most part of organic compounds from Reactor A. From
BOD5 change in Fig. 4, it could be found that BOD5 was increased
when treated by ZVI process. Moreover, BOD5/COD could be calculated,
which varies from 0.58 in the influent to 0.45, 0.16, 0.09 and
0.22, respectively, in the subsequent reactors. BOD5/COD decreased
when treated by biofilm reactors but increased after ZVI process.
Because of the oxidation–reduction function of ZVI process, some
refractory organic compounds were transformed or removed, and
the biodegradability of effluent was enhanced, which caused the
increase of the BOD5 value and BOD5/COD. Meanwhile, other similar
studies proved the increase of biodegradability by ZVI process
[24,29,30].