Septic Tank
 Everything
that goes down any of the drains in the house (toilets, showers, sinks,
laundry machines) travels first to the septic tank. The septic tank
is a large-volume, watertight tank which provides initial treatment
of the household wastewater by intercepting solids and settleable
organic matter before disposal of the wastewater (effluent) to the
drain field.
Function of the Septic
Tank
How Long Liquids
Must Remain In Tank
Solids Storage
Anaerobic Decomposition
Flow Into And Out Of The Tank
Effluent Filter
Flow Buffering
Microbes
in Septic Tanks Digest, Dissolve, and Gasify Complex Organic Wastes.
FUNCTION OF THE SEPTIC TANK
While relatively simple in construction and operation, the septic tank provides
a number of important functions through a complex interaction of physical
and biological processes. The essential functions of the septic tank are
to: receive all wastewater from the house separate solids from the wastewater
flow cause reduction and decomposition of accumulated solids provide storage
for the separated solids (sludge and scum) pass the clarified wastewater
(effluent) out to the drain field for final treatment and disposal.
Primary Treatment
As stated, the main function of the septic tank is to remove solids from the
wastewater and provide a clarified effluent for disposal to the drain field.
The septic tank provides a relatively quiescent body of water where the wastewater
is retained long enough to let the solids separate by both settling and flotation.
This process is often called primary treatment and results in three products:
scum, sludge, and effluent.
Scum: Substances lighter than water (oil, grease, fats) float to
the top,
where they form a scum layer. This scum layer floats on top of the water surface
in the tank. Aerobic bacteria work at digesting floating solids.
Sludge: The "sinkable" solids (soil, grit, bones, unconsumed
food particles)
settle to the bottom of the tank and form a sludge layer. The sludge is denser
than water and fluid in nature, so it forms a flat layer along the tank bottom.
Underwater anaerobic bacteria consume organic materials in the sludge, giving
off gases in the process and then, as they die off, become part of the sludge.
Effluent: Effluent is the clarified wastewater left over after the
scum has floated to the top and the sludge has settled to the bottom.
It is the clarified liquid between scum and sludge. It flows through
the septic tank outlet into the drain field.
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HOW LONG LIQUIDS MUST
REMAIN IN TANK
Effective volume: The floating scum layer on top and the sludge layer on the
bottom take up a certain amount of the total volume in the tank. The effective
volume is the liquid volume in the clear space between the scum and sludge
layers. This is where the active solids separation occurs as the wastewater
sits in the tank.
Retention time: In order for adequate separation of solids to occur,
the wastewater needs to sit long enough in the quiescent conditions
of the tank. The time the water spends in the tank, on its way from
inlet to outlet, is known as the retention time. The retention time
is a function of the effective volume and the daily household wastewater
flow rate:
Retention Time (days) = Effective Volume (gallons)/Flow Rate (gallons
per day)
A common design rule is for a tank to provide a minimum retention time of at
least 24 hours, during which one-half to two-thirds of the tank volume is taken
up by sludge and scum storage. Note that this is a minimum retention time,
under conditions with a lot of accumulated solids in the tank. Under ordinary
conditions (i.e., with routine maintenance pumping) a tank should be able to
provide two to three days of retention time. As sludge and scum accumulate
and take up more volume in the tank, the effective volume is gradually reduced,
which results in a reduced retention time. If this process continues unchecked-if
the accumulated solids are not cleaned out (pumped) often enough-wastewater
will not spend enough time in the tank for adequate separation of solids, and
solids may flow out of the tank with the effluent into the drain field. This
can result in clogged pipes and gravel in the drain field, one of the most
common causes of septic system failure.
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SOLIDS STORAGE
In order to avoid frequent removal of accumulated solids, the septic tank is
(hopefully) designed with ample volume so that sludge and scum can be stored
in the tank for an extended period of time. A general design rule is that
one-half to two-thirds of the tank volume is reserved for sludge and scum
accumulation. A properly designed and used septic system should have the
capacity to store solids for about five years or more. However, the rate
of solids accumulation varies greatly from one household to another, and
actual storage time can only be determined by routine septic tank inspections.
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ANAEROBIC DECOMPOSITION
While fresh solids are continually added to the scum and sludge layers, anaerobic
bacteria (bacteria that live without oxygen) consume the organic material
in the solids. The by-products of this decomposition are soluble compounds,
which are carried away in the liquid effluent, and various gases, which are
vented out of the tank via the inlet pipe that ties into the house plumbing
air vent system. Anaerobic decomposition results in a slow reduction of the
volume of accumulated solids in the septic tank. This occurs primarily in
the sludge layer but also, to a lesser degree, in the scum layer. The volume
of the sludge layer is also reduced by compaction of the older, underlying
sludge. While a certain amount of volume reduction occurs over time, sludge
and scum layers gradually build up in the tank and eventually must be pumped
out.
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FLOW INTO AND OUT OF THE
TANK
The inlet and outlet ports of the tank are generally equipped with devices
such as baffles, concrete tees, or in more recent years, sanitary tees (T-shaped
pipes with one short and one long leg).
Inlets
The inlet device dissipates the energy of the incoming flow and deflects it
downwards. The vertical leg of the tee extends below the liquid surface well
into the clear space below the scum layer. This prevents disturbance of the
floating scum layer and reduces disruptive turbulence caused by incoming
flows. The inlet device also is supposed to prevent short-circuiting of flows
across the water surface directly to the outlet. The upper leg of the inlet
should extend well above the liquid surface in order to prevent floating
scum from backing up into, and possibly plugging, the main inlet pipe. The
open top of the inlet tee allows venting of gases out of the tank through
the inlet pipe and fresh air vents of the household plumbing.
Outlets
The outlet device is designed to retain the scum layer within the tank. A sanitary
tee can be used with the lower leg extending below the scum layer. The elevation
of the outlet port should be 2 to 3 inches below the elevation of the inlet
port. This prevents backwater and stranding of solids in the main inlet pipe
during momentary rises in the tank liquid level caused by surges of incoming
wastewater.Typical inlet/outlet tees
Gas Deflection Baffle
Gases are produced by the natural digestion of sludge at the bottom
of the tank, and particles of sludge can be carried upward by these
rising gases. Some tanks have a gas deflection baffle, which prevents
gas bubbles (to which solid particles often adhere) from leaving the
tank by deflecting them away from the outlet and preventing them from
entering the drain field.
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THE EFFLUENT FILTER
In newer systems, there is often an effluent filter: one of the significant
improvements in septic tank design in decades. They range from 4 to 18 inches
in diameter. As we have described, the most serious problem with septic systems
is the migration of solids, grease, or oil into the drain field, and the
filter is effective in preventing this. A filter restricts and limits passage
of suspended solids into the effluent. Solids in a filtered system's effluent
discharge are significantly less than those produced in a non-screened system.
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FLOW BUFFERING
The septic tank also provides a buffering of flows between the house and the
drain field. Large surges from the household, such as toilet flushing or
washing machine drainage, are dampened by the septic tank so that the flows
leaving the tank and entering the drain field are at substantially lower
flow rates and extend over a longer period of time than the incoming surges.
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MICROBES
IN SEPTIC TANKS DIGEST, DISSOLVE, AND GASIFY COMPLEX ORGANIC WASTES
In 1907, W. P. Dunbar conducted tests on the decomposition of vegetable and
animal matter in septic tanks. He stated, "The author has investigated
the subject by suspending in septic tanks a large number of solid organic substances,
such as cooked vegetables, cabbages, turnips, potatoes, peas, beans, bread,
various forms of cellulose, flesh in the form of dead bodies of animals, skinned
and unskinned, various kinds of fat, bones, cartilage, etc., and has shown
that many of these substances are almost completely dissolved in from three
to four weeks. They first presented a swollen appearance, and increased in
weight. The turnips had holes on the surface, which gradually became deeper.
The edges of the cabbage leaves looked as though they had been bitten, and
similar signs of decomposition were visible in the case of other substances.
Of the skinned animals, the skeleton alone remained after a short time; with
the unskinned animals the process lasted rather longer. At this stage I will
only point out that the experiments were so arranged that no portion of the
substances could be washed away; their disappearance was therefore due to solution
and gasification."
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