Biomedical Engineering Reference
In-Depth Information
requirement are, then, principal factors and they interact as shown in Table 4.4
to indicate the likely best approach.
Biofilters
As mentioned earlier, these were the first methods to be developed. The system,
shown schematically in Figure 4.2, consists of a relatively large vessel or con-
tainer, typically made of cast concrete, metal or durable plastic, which holds a
filter medium of organic material such as peat, heather, bark chips and the like.
The gas to be treated is forced, or drawn, through the filter, as shown in the
diagram. The medium offers good water-holding capacity and soluble chemicals
within the waste gas, or smelt, dissolve into the film of moisture around the
matrix. Bacteria, and other micro-organisms present, degrade components of the
resultant solution, thereby bringing about the desired effect. The medium itself
provides physical support for microbial growth, with a large surface area to vol-
ume ratio, high in internal void spaces and rich in nutrients to stimulate and
sustain bacterial activity. Biofilters need to be watered sufficiently to maintain
optimum internal conditions, but waterlogging is to be avoided as this leads to
compaction, and hence, reduced efficiency. Properly maintained, biofilters can
reduce odour release by 95% or more.
Table4.4
Odourcontroltechnologyselectiontable
Technology
Compound
concentration
Compound
solubility
Process
control
Land
requirement
Biofilter
Low
Low
Low
High
Biotrickling filter
Low-medium
Low-high
Medium-high
Low
Bioscrubber
Low-medium
Medium-high
High
Low-medium
Figure4.2
Biofilter
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