IV. Reed bed as an On-site Systems

IV. Reed bed as an On-site Systems for
disposal of wastewater effluent
A constructed reed bed is an option for the
treatment of on-site wastewater. The term is used to
describe different categories of the generic process,
differentiated according to media selection and the
direction of effluent flow, as follows:
• Horizontal free surface flow constructed reed bed
(with soil).
• Horizontal subsurface flow reed beds (with gravel).
• Vertical subsurface flow reed beds (with gravel or
sand).
The most common type of reed bed is the subsurface
horizontal flow reed bed with gravel as the chosen
media where the wastewater is maintained below the
surface of the media. Such reed beds are generally
regarded as effective in terms of organics, suspended
solids and pathogenic organism removal but will not
nitrify any ammonia to nitrate due to oxygen
limitations.
Vertical flow reed bed systems are more effective
than horizontal flow reed beds in not only reducing
organics and suspended solid levels, but also in
nitrifying ammonia nitrogen to nitrate. Hybrid reed
bed systems, normally incorporating one or two
stages of vertical flow followed by one or more
stages of horizontal flow in series, may be designed
to achieve higher treatment efficiency and in
particular target total nitrogen removal, as well as
organic reduction and pathogen removal. Free water
surface based constructed reed bed need to be much
larger than their subsurface counterparts to achieve
the same level of treatment as the surface of the
wastewater is at or above the surface of the soil
support media. These systems however, can promote
superior ecological diversity and aesthetics. There is
a scarcity of reliable long-term performance data
relevant to Ireland and its climate for such systems,
and reluctance exists amongst some local authorities
to permit the use of reed bed as stand-alone
secondary treatment syatem.
V. V. Concluding Remarks
It has been observed that reed beds system for
treatment of wastewater using the floating plant
system is a predominant method which is economic
to construct requires little maintenance and increase
the biodiversity. The removal efficiency of
contaminants like TSS, TDS, BOD, COD, EC,
hardness, heavy metals, etc varies from plant to
plant. Plant growth rate and hydraulic retention time
can influence the reduction of contaminants.
Therefore, an available knowledge and techniques
for removal of water contaminants and advances in
waste water treatment can be integrated to assess and
control water pollution.