How to Repair a Septic Drain Field

Variations of Drainfields

There are many design variations of drainfields. A drainfield design depends upon many variables such as the size and topographical features of the lot, depth of the water table, soil conditions and types and other criteria. The size of the drainfield can vary infinitely, but most have minimum size requirements based on state and municipal codes.

The designs reviewed in this chapter are:

Gravity Drainfields – in Part I
Pressure Distribution Drainfields – in Part I
Cesspool (or Cesspit) – in Part I
Drywell (or Seepage Pit)
Mound Systems
Holding Tank
Aerobic Treatment Unit (ATU)

Drywell (or Seepage Pit):

A drywell is similar in design to a cesspool with an added layer of crushed stone around the outside diameter to increase the absorption area.

The drywell is typically a secondary chamber added in series after the septic tank or cesspool which allows only the clarified effluent from a septic tank or the gray water to enter.

Drywells can also be used to return storm water to the ground or to relocate basement drainage water to another location above the water table.

Mound Systems:

A mound system is used when a site has inadequate soil depth between the ground water table and the drainfield preventing the use of a gravity or pressure distributed drainfield buried below grade. A mound system consists of a drainfield constructed above the natural soil surface by means of a manmade mound which contains a specific sand fill material.

Within the sand fill is a gravel bed with a network of perforated distribution components, typically PVC pipes. Septic tank effluent is pumped in controlled intervals through the pipes to insure uniform distribution throughout the bed.

Final treatment of the effluent occurs as it filters through the sand and into the natural soil. Drainage around the mound site is critical if the system is to function properly. On sloping sites the down slope area below the mound must remain protected.

Holding Tank:

A holding tank is a self-contained watertight sewage tank which has no outlet for effluent. It is most commonly used as a temporary measure to allow continued occupancy of a house until a more permanent fix can be arranged. Holding tanks must be routinely pumped to prevent overflows or back-ups into the house. Some schools and other public properties use this system when sewers are not available and no suitable site exists for an on-site septic system. Homeowners must post a bond for potential spills and have to have a contract with an approved sludge hauler.

Aerobic Treatment Unit (ATU):

An aerobic treatment unit introduces oxygen into any anaerobic septic system, allowing aerobic bacteria to flourish and convert the system from anaerobic to aerobic. The aerobic bacteria are far more efficient, processing up to 90% of the solids in the septic tank versus an anaerobic system which processes only 40% of the solids in the tank and allows 60% to flow to the drainfield, resulting in biomat clogging over time.

Conclusions

The drywell and mound designs are subject to the same failure mode over time; they eventually become impermeable so that the sewage outflow from your septic tank cannot be absorbed into the ground. Fortunately, you do not have to replace your drainfield to return your septic system to an operational condition. Aero-Stream® has developed a product and process that will fix and restore any type of failed drainfield.

Learn more about our product and septic systems, in general, by navigating through our website, reading the Septic System Owners Manual, downloading the Septic System Report and calling us toll free.

How to Repair a Septic Drain Field

Source: https://www.aero-stream.com/drain-field.html