2. Material and methods2.1. Descrip

2. Material and methods
2.1. Description of the systems
The goal and scope of the study was to analyze the commonly
available on-site wastewater treatment options for rural areas of
Finland. Six alternatives were chosen for comparison: 1) sequencing
batch reactor (SBR), 2) biofilter, 3) soil infiltration, 4) buried sand
filter, 5) holding tank for black water and soil infiltration for gray
water, and 6) dry toilet with gray-water treatment. Two subalternatives
were used for dry-toilets: soil infiltration A) or prefabricated
gray-water filter B). In the last two systems listed, gray
and black water were sewered separately. The alternatives chosen
represent average products on the market, not any particular
commercial products. All products are capable of reaching the
purification performance of the on-site decree (85% reduction in
phosphorous, 40% in nitrogen and 90% of biological oxygen demand
(BOD)).
The alternative on-site systems and the sludge treatment are
described briefly below, and a summary of the assumptions is given
in Table 1.
2.1.1. Sequencing batch reactor
Wastewater is led into the SBR’s storage chamber, from which a
predefined batch of wastewater is pumped to a process chamber. In
this process chamber, wastewater is purified by aeration and
phosphorus is precipitated. In the final phase, wastewater is settled
and clarified wastewater discharged. Some sludge from the process
tank is recycled to the storage chamber to stabilize the process, but
the excess sludge is pumped to a separate tank to be transported by
truck for treatment at the municipal WWTP.
2.1.2. Biofilter
A biofilter is a prefabricated biologicalechemical continuous-
flow wastewater treatment plant. The process is based on carrier
technology wherein the culture media for microbes are carrier
units made of plastic. In addition, the phosphorus is chemically
precipitated. The type of biofilter studied includes a tank made of
polyethylene with 3e4 chambers as well as technical equipment,
including, for example, a central processing unit, three pumps
(transfer, recirculation, and chemical), and internal pipework.
Wastewater is pre-treated in the biofilter’s sedimentation chamber(s)
(1e2), from which it flows to a process chamber. The recirculation
pump circulates wastewater through the plastic filter
media, after which the phosphorus is precipitated. Finally, the
wastewater is clarified and discharged. Sludge from the final clarification/process
tank can also be recycled and fed back to the
sedimentation chambers. Excess sludge from the sedimentation
chamber is transported for treatment at the municipal WWTP.
2.1.3. Buried sand filter
A buried sand filter is a sand and gravel filled excavation.
Wastewater is trickled through the layers and purified biologicallyemechanically
in the process. The buried sand filter is constructed
as a wide excavation filled with suitable sand and gravel (a
filter bed). Wastewater is pre-treated in a three-chamber septic
tank, from which it is distributed onto the filter bed. Wastewater
infiltrates through the filter bed and is collected into the pipes in
the bottom and led to a discharge. Sludge from the septic tank is
transported for treatment at the municipal WWTP.
2.1.4. Soil infiltration
Soil infiltration is a wastewater treatment system in which the
properties of natural soil are used to purify wastewater biologicallyemechanically.
The soil infiltration includes a shallow