What Is A Septic Tank Field Line?

Septic drain fields, also called leach fields or leach drains, are subsurface wastewater disposal facilities used to remove contaminants and impurities from the liquid that emerges after anaerobic digestion in a septic tank. A septic drain field, a septic tank, and associated piping compose a septic system.

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  • What Is A Septic Tank Field Line? Septic tank field lines are also called drain field lines. These extend outward from the septic tank. The exit baffle is connected to a drain field pipe which conveys effluent to the drain field or leach area for onward treatment.

How do I check my septic tank field lines?

Scan the area for markers: The location of your septic tank should be marked by a cement marker the size of a manhole cover. Look for it 10 to 20 feet away from your home. Once you locate the tank, follow the downward-most path and check for an empty downward-sloping field. You may have just found your drain field.

How do I know if my drain field is failing?

The following are a few common signs of leach field failure:

  1. Grass over leach field is greener than the rest of the yard.
  2. The surrounding area is wet, mushy, or even has standing water.
  3. Sewage odors around drains, tank, or leach field.
  4. Slow running drains or backed up plumbing.

How much field line do I need for a septic tank?

A typical septic drainfield trench is 18 to 30 inches in depth, with a maximum soil cover over the disposal field of 36″; or per the USDA, 2 feet to 5 feet in depth.

Can you clean field lines?

It is often possible to clean and renew a clogged septic leach field instead of replacing the drain field lines. Septic field lines can fail to drain when heavy solids accumulate and block perforations in the lines. You can use a sewer jetter to clean perforated PVC septic leach field lines from 2″ to 6″ ID.

Can you walk on a leach field?

Your family can walk on a well-maintained drain field without fear of encountering puddles of affluent and dangerous bacteria. Bicycles and tricycles are also acceptable because they are not heavy enough to compress or disturb the soil.

How long does a drain field last?

It’s important to consider the life expectancy of a drain-field, too. Under normal conditions and good care, a leach-field will last for 50 years or more. Concrete septic tanks are sturdy and reliable but not indestructible.

What is the most common cause of septic system failure?

Most septic systems fail because of inappropriate design or poor maintenance. Some soil-based systems (those with a drain field) are installed at sites with inadequate or inappropriate soils, excessive slopes, or high ground water tables.

How do you unclog a drain field?

Can Anything Unclog an Old Septic Drain Field?

  1. Shock the System With Bacteria. A septic system bacteria packet can help clean out a clogged drain field by allowing waste material to break down and drain through.
  2. Reduce Water Usage.
  3. Avoid Harsh Chemicals.
  4. Change to Gentler Toilet Paper and Soap.
  5. Contact a Septic Professional.

How deep is a drain field?

A typical drainfield trench is 18 to 30 inches in depth, with a maximum soil cover over the disposal field of 36 inches.

Can you have a septic tank without a leach field?

The waste from most septic tanks flows to a soakaway system or a drainage field. If your septic tank doesn’t have a drainage field or soakaway system, the waste water will instead flow through a sealed pipe and empty straight into a ditch or a local water course.

What can you put on top of a septic field?

Put plastic sheets, bark, gravel or other fill over the drainfield. Reshape or fill the ground surface over the drainfield and reserve area. However, just adding topsoil is generally OK if it isn’t more than a couple of inches. Make ponds on or near the septic system and the reserve area.

Can heavy rain affect septic tank?

It is common to have a septic back up after or even during a heavy rain. Significant rainfall can quickly flood the ground around the soil absorption area (drainfield) leaving it saturated, making it impossible for water to flow out of your septic system.

Can a leach field be restored?

A drainfield that isn’t working properly could result in clogged drains and the release of raw sewage on the ground’s surface. A failing drainfield can, and should, be restored quickly to avoid permanent damage. Biological, organic, and inorganic additives can be used to restore functionality to a failing drainfield.

What Are Leach Lines and When Should They Be Replaced?

If your house is equipped with an aseptic system, it will have leach lines or an aleach field. It is necessary to have leach lines as part of any onsite wastewater system since they are the final stage in a process that begins at your sink or toilet and finishes with the wastewater being disposed of in the ground. When the leach lines stop working, the entire system fails as a result. Knowing how to recognize failing or failed leach lines may assist you in catching the problem early and limiting the amount of money spent on replacement.

How a Septic System Works

In order to separate them from municipal or public waste systems, septic systems are also referred to as onsite wastewater management systems. The usage of the phrase “onsite” is important because a home’s septic system and a municipal system perform substantially the same functions. Both systems are designed to treat liquid waste or sewage (also known as effluent) and render it harmless by eliminating the pathogens that are present in it.

  1. It is through the sewer line that the greywater (water collected from sinks and showers, but not baths) as well as toilet liquid and solid waste leave the residence. It is the sewage line that transports the waste down to the septic tank. The trash begins its journey through the septic tank in the first compartment. Heavy waste items sink to the bottom of the tank, while lighter waste materials such as oils and greases float to the surface, forming a layer of scum. Effluent is sent to the rear compartment by baffles and screens. In order to sink into the earth, wastewater must first pass through an effluent filter and then via leach lines.

Tip

Millions of bacteria live in septic tanks and drains. The bacteria are responsible for the breakdown of waste in the systems. As a result, a septic system that is excessively clean will be unable to perform correctly. Even two liters of bleach are sufficient to prevent or significantly inhibit the bacteria’s ability to digest waste.

What Are Leach Lines?

A large number of bacteria live in septic tanks. Waste is broken down by bacteria, which is essential for the systems to function properly and efficiently. In this case, an overly clean septic system will be unable to provide enough filtration. Even two liters of bleach are sufficient to prevent or significantly inhibit the bacteria’s ability to digest waste materials.

Signs of Failing or Failed Leach Lines

Sometimes it might be tough to figure out which element of a septic system has failed when one is experiencing problems. Any of the following symptoms can assist you in determining whether or not leach line failure is the source of the problem:

  • Plant growth that is more vigorous or grass that is greener than in other parts of the yard
  • Throughout the home, the drains are slower to operate
  • Water in the house regularly backs up. If your yard is squishy or has standing water, call for help. sewage scents emanating from either inside or outside the home
  • Sounds of gurgling

Why Leach Lines Fail

It is theoretically possible to construct an intelligent self-contained system that returns water to the soil and disinfects it biologically. However, in practice, this is not the case. In actuality, because a septic system has so many moving components, anything may go wrong, and leach lines are frequently the cause of these mishaps. If the septic tank was not correctly handled, it is possible that an excessive amount of solid waste was permitted to flow into the leach lines, clogging holes in the pipe or the surrounding ground.

Even if there is no catastrophic occurrence, it is possible that your leach field has simply reached the end of its normal life cycle.

How to Replace Leach Lines

It is recommended that you hire a professional to handle the replacement of leach lines, as is the case with the majority of septic tank tasks and concerns.

  1. The present leach field must be completely demolished in order to prevent contamination. A large amount of heavy equipment is required for this phase since leach fields are widely distributed. A distribution box is put near the septic tank for the purpose of distributing waste. The wastewater from the septic tank is delivered to the distribution box by a single big pipe. The leach field is formed by lateral pipes that radiate outward in trenches from the distribution box. There are between four and nine lateral pipes in total. Because this is a gravity-based system, the lateral pipes must be installed on a downward slope to be effective. Plastic septic chambers are installed over the leach line pipes to collect the wastewater. The trenches are filled with at least 6 inches of earth, or to the depth specified in your location, depending on the conditions. For the time being, only some parts, such as the ends of the pipes and the distribution box, are visible. The local permitting agency conducts an inspection of the septic system. Following a successful inspection, the remaining trenches are filled up
  2. Otherwise, they are left unfilled.

How Your Septic System Works

Underground wastewater treatment facilities, known as septic systems, are often employed in rural regions where there are no centralized sewage lines. They clean wastewater from residential plumbing, such as that produced by bathrooms, kitchen drains, and laundry, by combining natural processes with well-established technology. A conventional septic system is comprised of two components: a septic tank and a drainfield, often known as a soil absorption field. It is the septic tank’s job to decompose organic matter and to remove floatable stuff (such as oils and grease) and solids from wastewater.

Alternate treatment systems rely on pumps or gravity to assist septic tank effluent in trickling through a variety of media such as sand, organic matter (e.g., peat and sawdust), constructed wetlands, or other media to remove or neutralize pollutants such as pathogens that cause disease, nitrogen, phosphorus, and other contaminants.

Prior to discharging wastewater into the environment, several alternative systems are designed to evaporate or disinfect the effluent.

Specifically, this is how a typical conventional septic system works:

  1. All of the water that leaves your home drains down a single main drainage pipe and into a septic tank. An underground, water-tight container, often composed of concrete, fiberglass, or polyethylene, serves as a septic system’s holding tank. Its function is to retain wastewater for a long enough period of time to allow particles to sink to the bottom and form sludge, while oil and grease float to the surface and produce scum. Sludge and scum are prevented from exiting the tank and moving into the drainfield region by compartments and a T-shaped outlet. After that, the liquid wastewater (effluent) exits the tank and flows into the drainfield. The drainfield is a shallow, covered hole dug in unsaturated soil that serves as a drainage system. Porous surfaces are used to release pretreated wastewater because they allow the wastewater to pass through the soil and into the groundwater. In the process of percolating through the soil, wastewater is accepted, treated, and dispersed by the soil, finally discharging into groundwater. Finally, if the drainfield becomes overburdened with too much liquid, it can flood, causing sewage to flow to the ground surface or resulting in toilet backups and sink backups. Finally, wastewater percolates into the soil, where it is naturally removed of harmful coliform bacteria, viruses, and nutrients. Coliform bacteria are a kind of bacteria that may be found in the intestines of humans and other warm-blooded animals, with humans being the most common host. As a result of human fecal contamination, it is a sign of this.

The Guadalupe-Blanco River Authority has built an animated, interactive model of how a residential septic system works, which you can view here.

Do you have a septic system?

It’s possible that you’re already aware that you have a septic system. If you are not sure, here are some tell-tale symptoms that you most likely are:

  • You make use of well water. In your home, the water pipe that brings water into the house does not have a meter. In the case of a water bill or a property tax bill, you will see “$0.00 Sewer Amount Charged.” It is possible that your neighbors have a septic system

How to find your septic system

You can locate your septic system once you have confirmed that you have one by following these steps:

  • The following are some methods for determining whether or not your home has a septic system.
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Failure symptoms: Mind the signs!

A bad odor is not necessarily the first indicator of a septic system that is failing to work properly. Any of the following signs should prompt you to seek expert assistance:

  • Water backing up into the drains of homes and businesses
  • It is especially noticeable in dry weather that the drainfield grass is bright green and spongy. The presence of standing water or muddy soil near your septic system or in your basement
  • A strong stench emanating from the area surrounding the septic tank and drainfield

Types of Septic Systems

Septic system design and size can differ significantly from one neighborhood to the next, as well as throughout the country, due to a variety of variables. Household size, soil type, slope of the site, lot size, closeness to sensitive water bodies, weather conditions, and even municipal ordinances are all considerations to take into consideration. The following are 10 of the most often encountered septic system configurations. It should be noted that this is not an exhaustive list; there are several additional types of septic systems.

  • Septic Tank, Conventional System, Chamber System, Drip Distribution System, Aerobic Treatment Unit, Mound Systems, Recirculating Sand Filter System, Evapotranspiration System, Constructed Wetland System, Cluster / Community System, etc.

Septic Tank

This tank is underground and waterproof, and it was designed and built specifically for receiving and partially treating raw home sanitary wastewater. Generally speaking, heavy materials settle at or near the bottom of the tank, whereas greases and lighter solids float to the surface. The sediments are retained in the tank, while the wastewater is sent to the drainfield for further treatment and dispersion once it has been treated.

Conventional System

Septic tanks and trench or bed subsurface wastewater infiltration systems are two types of decentralized wastewater treatment systems (drainfield). When it comes to single-family homes and small businesses, a traditional septic system is the most common type of system. For decades, people have used a gravel/stone drainfield as a method of water drainage. The term is derived from the process of constructing the drainfield. A short underground trench made of stone or gravel collects wastewater from the septic tank in this configuration, which is commonly used.

Effluent filters through the stone and is further cleaned by microorganisms once it reaches the soil below the gravel/stone trench, which is located below the trench.

Chamber System

Gravelless drainfields have been regularly utilized in various states for more than 30 years and have evolved into a standard technology that has mostly replaced gravel systems. Various configurations are possible, including open-bottom chambers, pipe that has been clothed, and synthetic materials such as expanded polystyrene media. Gravelless systems can be constructed entirely of recycled materials, resulting in considerable reductions in carbon dioxide emissions during their lifetime. The chamber system is a type of gravelless system that can be used as an example.

The key advantage of the chamber system is the enhanced simplicity with which it can be delivered and built.

This sort of system is made up of a number of chambers that are connected to one another.

Wastewater is transported from the septic tank to the chambers through pipes. The wastewater comes into touch with the earth when it is contained within the chambers. The wastewater is treated by microbes that live on or near the soil.

Drip Distribution System

An effluent dispersal system such as the drip distribution system may be employed in a variety of drainfield configurations and is very versatile. In comparison to other distribution systems, the drip distribution system does not require a vast mound of dirt because the drip laterals are only placed into the top 6 to 12 inches of soil. In addition to requiring a big dosage tank after the sewage treatment plant to handle scheduled dose delivery of wastewater to drip absorption areas, the drip distribution system has one major disadvantage: it is more expensive.

Aerobic Treatment Unit

Aerobic Treatment Units (ATUs) are small-scale wastewater treatment facilities that employ many of the same procedures as a municipal sewage plant. An aerobic system adds oxygen to the treatment tank using a pump. When there is an increase in oxygen in the system, there is an increase in natural bacterial activity, which then offers extra treatment for nutrients in the effluent. It is possible that certain aerobic systems may additionally include a pretreatment tank as well as a final treatment tank that will include disinfection in order to further lower pathogen levels.

ATUs should be maintained on a regular basis during their service life.

Mound Systems

Using mound systems in regions with short soil depth, high groundwater levels, or shallow bedrock might be a good alternative. A drainfield trench has been dug through the sand mound that was erected. The effluent from the septic tank runs into a pump chamber, where it is pumped to the mound in the amounts recommended. During its release to the trench, the effluent filters through the sand and is dispersed into the native soil, where it continues to be treated. However, while mound systems can be an effective solution for some soil conditions, they demand a significant amount of land and require regular care.

Recirculating Sand Filter System

Sand filter systems can be built either above or below ground, depending on the use. The effluent is discharged from the septic tank into a pump compartment. Afterwards, it is pushed into the sand filter. The sand filter is often made of PVC or a concrete box that is filled with a sand-like substance. The effluent is pushed through the pipes at the top of the filter under low pressure to the drain. As the effluent exits the pipelines, it is treated as it passes through the sand filtering system.

However, sand filters are more costly than a standard septic system because they provide a higher level of nutrient treatment and are thus better suited for areas with high water tables or that are adjacent to bodies of water.

Evapotranspiration System

Evaporative cooling systems feature drainfields that are one-of-a-kind. It is necessary to line the drainfield at the base of the evapotranspiration system with a waterproof material. Following the entry of the effluent into the drainfield, it evaporates into the atmosphere. At the same time, the sewage never filters into the soil and never enters groundwater, unlike other septic system designs. It is only in particular climatic circumstances that evapotranspiration systems are effective. The environment must be desert, with plenty of heat and sunshine, and no precipitation.

Constructed Wetland System

Construction of a manufactured wetland is intended to simulate the treatment processes that occur in natural wetland areas. Wastewater goes from the septic tank and into the wetland cell, where it is treated. Afterwards, the wastewater goes into the media, where it is cleaned by microorganisms, plants, and other media that eliminate pathogens and nutrients. Typically, a wetland cell is constructed with an impermeable liner, gravel and sand fill, and the necessary wetland plants, all of which must be capable of withstanding the constant saturation of the surrounding environment.

As wastewater travels through the wetland, it may escape the wetland and flow onto a drainfield, where it will undergo more wastewater treatment before being absorbed into the soil by bacteria.

Cluster / Community System

A decentralized wastewater treatment system under some type of community ownership that gathers wastewater from two or more residences or buildings and transports it to a treatment and dispersal system placed on a suitable location near the dwellings or structures. It is usual to discover cluster systems in settings like rural subdivisions.

Dos and Don’ts of Drain Field Lines

Drain field lines are a vital aspect of your leach field’s overall design and construction. If your system isn’t operating as it should, our partners can assist you with the problem. Call us right now at 404-998-8812! ” data-image-caption=”The Dos and Don’ts of Drain Field Lines” data-image-caption=”The Dos and Don’ts of Drain Field Lines” data-medium-file=” data-large-file=” data-small-file=” Consequently, drain field lines are a vital aspect of your leach field, and as a result, are an essential component of your septic system in its entirety.

What Drain Field Lines Do

Even with the best septic system, effluent, or waste water from the tank, must eventually empty into the environment. There are a plethora of alternatives available in this situation. Some people prefer to let the sewage drain into a pit. Another option is to use a graywater recycling system to recycle the effluent. The leach field, on the other hand, is the most popular. The effluent travels through a network of subterranean pipes (drain field lines) that are punctured with numerous small holes in order to achieve this configuration.

The drainfield itself plays a significant role in cleansing the effluent and ensuring that it is safe to discharge into the environment.

Bacteria may also be found in the soil, which means that as long as the flow of effluent stays sluggish, your on-site waste treatment plant will remain healthy and safe for both the environment and the people who live in the surrounding area.

You will need to take certain steps to ensure that your drainfield is capable of performing its function.

Don’ts of Drain Field Lines

Place anything heavy on top of them to make them more stable. If the soil compacts, it will be unable to absorb the effluent; thus, do not construct anything on top of it (patios, gazebos, swimming pools, play equipment, etc.), and do not allow anybody to drive over it. Anything other than grass should be planted on or around them. The roots have the potential to clog or harm the pipes. Increase the load on the system. If an excessive amount of effluent is introduced into the system at one time, it will not be properly treated, and solids will reach the drainfield.

Spend money on system treatments that aren’t necessary.

Dos of Drain Field Lines

Pump your system on a regular basis. For a typical home, this implies every 3-5 years, or even more frequently if you have a waste disposal in your kitchen. If your septic system is located on commercial or industrial land, it will need to be serviced on a regular basis. This guarantees that sediments do not make their way into the drainfield and cause it to get clogged. Keep a close watch on everything. Keep an eye out for indicators of failure, such as stagnant water or an excessive amount of plants growing on top of it.

Call Atlanta Septic Tank Pros if You Have Trouble with Your Drain Field Lines

Our team can assist you if your system is not functioning properly, or if you’d just like it to be examined and pumped out. Because our partners are knowledgeable, courteous, and efficient, you can be assured that the task will be completed swiftly and accurately. To make an appointment, call (404) 998-8812 now.

A Beginner’s Guide to Septic Systems

  • Septic systems are used to dispose of waste from homes and buildings. Identifying the location of the septic tank and drainfield
  • What a Septic System Is and How It Works Keeping a Septic System in Good Condition
  • Signs that a septic system is failing include:

Septic systems, also known as on-site wastewater management systems, are installed in a large number of buildings and houses. It is easy to lose sight of septic systems, which operate quietly, gracefully, and efficiently to protect human and environmental health due to their burying location. Septic systems are the norm in rural regions, but they may also be found in a lot of metropolitan places, especially in older buildings. It is critical to understand whether or not your building is on a septic system.

Is Your Home or Building on a Septic System?

It is possible that the solution to this question will not be evident. If a structure looks to be connected to a sewage system, it may instead be connected to a septic system. It is fairly unusual for tenants to be unaware of the final destination of the wastewater generated by their residence. Some of the hints or signs listed below will assist in determining whether the facility is served by a septic system or whether it is supplied by a sewer system:

  • Sewer service will be provided at a cost by the city or municipality. Pay close attention to the water bill to see whether there is a cost labeled “sewer” or “sewer charge” on it. If there is a fee for this service, it is most likely because the facility is connected to a sewage system. Look up and down the street for sewage access ports or manholes, which can be found in any location. If a sewage system runs in front of a property, it is probable that the house is connected to it in some way. Inquire with your neighbors to see if they are connected to a sewer or septic system. The likelihood that your home is on a sewer system is increased if the properties on each side of you are on one as well. Keep in mind, however, that even if a sewage line runs in front of the structure and the nearby residences are connected to a sewer system, your home or building may not be connected to one. If the structure is older than the sewer system, it is possible that it is still on the original septic system. Consult with your local health agency for further information. This agency conducts final inspections of septic systems to ensure that they comply with applicable laws and regulations. There is a possibility that they have an archived record and/or a map of the system and will supply this information upon request
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All property owners should be aware of whether or not their property is equipped with an on-site wastewater treatment system.

Georgia law mandates that the property owner is responsible for the correct operation of a septic system, as well as any necessary maintenance and repairs.

Locating the Septic Tank and Drainfield

Finding a septic system may be a difficult process. They can be buried anywhere in the yard, including the front, back, and side yards. After a few years, the soil may begin to resemble the surrounding soil, making it impossible to distinguish the system from the surrounding soil. It is possible that in dry weather, the grass will be dryer in the shallow soil over the tank and greener over the drainfield, where the cleansed water will be released, but this is not always the case, especially in hot weather.

  1. The contractor who built the house should have presented the initial owner with a map showing the tank and drainfield locations, according to the building code.
  2. The installation of the system, as well as any modifications made to it, would have been examined by your local health authority.
  3. Unfortunately, if the system is very old, any records related with it may be insufficient or nonexistent, depending on the situation.
  4. Look for the point at where the wastewater pipes join together if the building is on a crawlspace or has an unfinished basement.
  5. The sewer line that runs through the structure is referred to as the building sewer.
  6. To “feel” for the tank, use a piece of re-bar or a similar metal probe.
  7. If you use this free service, you may avoid accidentally putting a rod through your gas or water line.

Try to locate the tank after a rainstorm, when the metal probe will be more easily maneuvered through moist dirt.

This should be done with care; extreme caution should be exercised to avoid puncturing the building sewer.

A tank is normally 5 by 8 feet in size, however the dimensions might vary.

Be aware that there may be rocks, pipes, and other debris in the area that “feels” like the tank but is not in fact part of the tank.

However, it is possible to have the lid or access port positioned on a riser in addition to being on the same level as the top of the tank in some cases.

Once the tank has been identified, make a rough drawing of its placement in relation to the house so that it will not be misplaced again!

It may be easier to discover the drainage lines now that the tank has been identified, particularly if the area has been subjected to prolonged periods of drought.

How a Septic System Works

Typical sewage treatment system (figure 1). It is composed of three components (Figure 1): the tank, the drain lines or discharge lines, and the soil treatment area (also known as the soil treatment area) (sometimes called a drainfield or leach field). The size of the tank varies according to the size of the structure. The normal home (three bedrooms, two bathrooms) will often include a 1,000-gallon water storage tank on the premises. Older tanks may only have one chamber, however newer tanks must have two chambers.

  • The tank functions by settling waste and allowing it to be digested by microbes.
  • These layers include the bottom sludge layer, the top scum layer, and a “clear” zone in the center.
  • A typical septic tank is seen in Figure 2.
  • It is fortunate that many of the bacteria involved are found in high concentrations in the human gastrointestinal tract.
  • Although the bacteria may break down some of the stuff in the sludge, they are unable to break down all of it, which is why septic tanks must be cleaned out every three to seven years.
  • In addition, when new water is introduced into the septic tank, an equal volume of water is pushed out the discharge lines and onto the drainfield.
  • The water trickles out of the perforated drain pipes, down through a layer of gravel, and into the soil below the surface (Figure 3).
  • A typical drainfield may be found here.
  • Plants, bacteria, fungus, protozoa, and other microorganisms, as well as bigger critters such as mites, earthworms, and insects, flourish in soil.
  • Mineralogical and metallic elements attach to soil particles, allowing them to be removed from the waste water.

Maintaining a Septic System

The most typical reason for a septic system to fail is a lack of proper maintenance. Septic systems that are failing are expensive to repair or replace, and the expense of repairs rests on the shoulders of the property owner (Figure 4). Fortunately, keeping your septic system in good working order and avoiding costly repairs is rather simple. Figure 4. Septic system failure is frequently caused by a lack of proper maintenance. It is in your best interests to be aware of the location of the system, how it operates, and how to maintain it.

  • You should pump the tank if you aren’t sure when the last time it was pumped.
  • It is not permissible to drive or park over the tank or drainage field.
  • No rubbish should be disposed of in the sink or the toilet.
  • It’s important to remember that garbage disposals enhance the requirement for regular pumping.
  • When designing a landscape, keep the septic system in mind.
  • It is also not recommended to consume veggies that have been cultivated above drainfield lines (see Dorn, S.
  • Ornamental Plantings on Septic Drainfields.

C 1030).

Any water that enters your home through a drain or toilet eventually ends up in your septic system.

Don’t put too much strain on the system by consuming a large amount of water in a short period of time.

Additives should not be used.

Various types of additives are available for purchase as treatment options, cleansers, restorers, rejuvenator and boosters, among other things.

To break up oil and grease and unclog drains, chemical additives are available for purchase.

Pumping out the septic tank is not eliminated or reduced by using one of these systems.

They remain floating in the water and travel into the drainfield, where they may block the pipes. Acids have the potential to damage concrete storage tanks and distribution boxes.

Signs a Septic System is Failing

A failed system manifests itself in the following ways:

  • Sinks and toilets drain at a snail’s pace
  • Plumbing that is backed up
  • The sound of gurgling emanating from the plumbing system House or yard aromas that smell like sewage
  • In the yard, there is wet or squishy dirt
  • Water that is gray in hue that has accumulated
  • An region of the yard where the grass is growing more quickly and is becoming greener
  • Water contaminated by bacteria from a well

If you notice any of these indicators, you should notify your local health department immediately. An environmentalist from the health department can assist in identifying possible hazards. There are also listings of state-certified contractors available from the local health department, who may do repairs. Repairs or alterations to the system must be approved by the health department and examined by an inspector. Keep an eye out for any meetings that may take place between a health department inspector and a contractor to discuss repairs to your system.

  • Household garbage that has not been properly handled is released into the environment when systems fail.
  • It has the potential to pollute surrounding wells, groundwater, streams, and other sources of potable water, among other things.
  • The foul odor emanating from a malfunctioning system can cause property values to plummet.
  • Briefly stated, broken systems can have an impact on your family, neighbors, community, and the environment.
  • Septic systems are an effective, attractive, and reasonably priced method of treating and disposing of wastewater.

Figures 2 and 3 reprinted with permission from: CIDWT. 2009. Installation of Wastewater Treatment Systems. Consortium of Institutes for Decentralized Wastewater Treatment. Iowa State University, Midwest Plan Service. Ames, IA.

History of the current status and revisions Published on the 15th of August, 2013. Published on March 28th, 2017 with a full review.

What You Need to Know About Your Septic System’s Drainfield

Revision History as well as current status on the 15th of August, 2013 Released on March 28, 2017 with a full review.

What Is a Septic System Drainfield?

In order for a septic system to work correctly, drainfields, also known as leach fields or absorption fields, must be installed. Drainfields collect and manage wastewater that has been pumped from the septic tank and are thus essential. They are comprised of perforated pipes that are buried two to four feet underground and lead away from the tank. Septic tanks would overflow if a drainfield was not there, resulting in runoff and a foul stench in your yard. Whenever everything is operating properly, the soil in the drainfield filters the wastewater, and naturally occurring bacteria and microorganisms decompose the solid waste.

What Are the Signs There Is a Problem With Your Drainfield?

  • Waste smells, particularly outside in the vicinity of the septic tank and drainfield
  • Predominant presence of dark green, luxuriant flora covering the drainfield It may be visually appealing, but it indicates a severely overburdened septic system. It’s possible to have wet, soggy, or spongy regions over your septic tank or drainfield even in dry weather. It’s possible that you’ll discover puddles of standing water. Kitchen and bathroom drains that are too slow
  • Toilets that are overflowing or sewage backups

What Are the Causes of These Problems?

A drainfield can live for 50 years or longer if it is properly cared for and maintained.

However, several of the indications listed above might indicate that a drainfield is beginning to fail. The system just does not have the capability to take any additional garbage. Sewage backups, a foul stench outdoors, and sluggish drainage within your house are all possible consequences of this.

Crushing damage

When erected over a drainfield, heavy objects such as a shed, animals, or automobiles can cause the pipes below to get damaged or destroyed. Compaction of the soil can also be caused by an excessive amount of weight on the drainfield. Wastewater cannot be adequately absorbed in compacted soil, resulting in the occurrence of many of the symptoms described above.

Pipes are blocked

A possible source of obstruction is the infiltration of tree and plant roots into sewer lines, which prevents wastewater from draining correctly. The accumulation of sludge and the flushing of objects that should not be flushed down the toilet can also cause clogging of pipes.

The septic system is overloaded

Doing multiple loads of laundry on the same day as running the dishwasher might cause the septic system to become overburdened. A leaky faucet or a gurgling toilet might also be problematic. Time is required by all septic systems in order for the effluent to pass through the treatment procedures. It is otherwise necessary to compel wastewater to flow into the drainage field at a quicker pace than the drainage field is capable of handling. This can result in standing water or the mushy, spongy conditions described above.

Gutter downspouts draining over the drainfield

The septic system might be overburdened if you do numerous loads of laundry and use the dishwasher on the same day. A leaky faucet or a gurgling toilet can also be a source of frustration. Time is required by all septic systems to allow effluent to pass through the treatment process. It is otherwise necessary to compel wastewater to flow into the drainage field at a quicker speed than the drainage field is capable of supporting. This can result in standing water or the wet, spongy conditions described above.

What to Do to Maintain a Healthy Drainfield

  • Doing multiple loads of laundry and running the dishwasher on the same day might cause the septic system to become overburdened. A leaky faucet or a running toilet might also cause problems. Time is required by all septic systems to allow the effluent to pass through the treatment process. Aside from that, wastewater is pushed to flow into the drainfield at a pace that exceeds the drainfield’s capacity. This can result in standing water or the wet, spongy conditions indicated above.

Field Lines and Tanks

That’s a great question! Briefly stated, onsite waste water treatment systems are those that handle and purify domestic waste water on-site (effluent) A mixture of black water (toilet waste) and grey water makes up the effluent (kitchen, bath, laundry). A septic system is made up of two parts: a septic tank and field lines (or drains) (also referred to as a leach field). The first stage of treatment takes place in the septic tank, where microorganisms break down organic compounds in the effluent.

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In this location, bacteria complete the digestion and purification process while wastewater slowly seeps into the soil or infiltrates into the ground.

THE SEPTIC TANK

The septic tank is an underground box that is “watertight.” It is typically made of concrete and is around eight feet length, four feet wide, and five feet deep. It has a minimum storage capacity of 1,000 gallons. During the flow of wastewater into the tank, heavy solids settle to the bottom and accumulate as a sludge layer, whereas grease and fats rise to the surface and accumulate as a layer of scum. There is a transparent zone of liquid in between these two levels.

Billions of bacteria that exist naturally in the tank may be found in all three of these levels, and they are responsible for the first step of therapy, which is the breakdown of solid debris. As they break down the solid debris, gases are created and released via the plumbing vent on your roof.

THE FIELD LINES

The partially treated effluent from the tank is discharged onto the field line system, which is normally comprised of two or more trenches. This is the location where wastewater is naturally cleansed as it percolates through the soil and into the groundwater. Distance between trenches and depth of trenches to the bottom are dictated by the local health agency and/or the engineer who designed the trench system. The types of soil present, as well as the depth of the water table, define the distance and depth of the water table.

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How a Septic System Works – and Common Problems

This Article Discusses Septic Tanks are a type of septic tank that is used to dispose of waste. Field Sizing and System MaintenanceProblems with the Leach FieldSystem Performance Questions and comments are welcome. See Also: Septic System Frequently Asked Questions Articles on SEPTIC SYSTEM may be found here. In locations where there are no municipal sewage systems, each residence is responsible for treating its own sewage on its own property, which is known as a “on-site sewage disposal system,” or septic system, more popularly.

One of the most commonly seen types of leach field is composed of a series of perforated distribution pipes, each of which is placed in a gravel-filled absorption trench.

SEPTIC TANK

The wastewater is collected in the septic tank once it has been discharged from the residence. Septic tanks are normally between 1,000 and 2,000 gallons in capacity and are composed of concrete, strong plastic, or metal, depending on the model. Highly durable concrete tanks, which should endure for 40 years or more provided they are not damaged, are the most common. Many contemporary tanks are designed with two chambers in order to maximize efficiency. Household wastewater is collected in the septic tank, where it is separated and begins to degrade before being discharged into the leach field.

  1. In the tank, oil and grease float to the top of the tank, where they are known as scum, while solid waste falls to the bottom, where they are known as sludge.
  2. Bacteria and other microorganisms feed on the sediments at the bottom of the tank, causing them to decompose in an anaerobic (without oxygen) process that begins at the bottom of the tank.
  3. Solids and grease must be pushed out of the system on a regular basis in order for it to continue to function effectively.
  4. Each gallon added to the tank results in one gallon being discharged to the leach field, leach pit, or other similar treatment facility.

A large amount of water delivered too rapidly to the tank may discharge untreated effluent, along with oil and particulates, into the leach field, where it may block the field and cause a backup.

Leach Field

When used properly, a leach field (also known as a “drain field”) is a series of perforated pipes that are typically buried in gravel trenches 18 to 36 inches below grade — deep enough to avoid freezing, but close enough to the surface that air can reach the bacteria that further purify the effluent (see illustration below). As little as 6 inches might separate you from the ground surface, depending on your soil type and municipal regulations. It is customary to cover the perforated pipes with approximately two inches of gravel and a layer of topsoil that is 18 to 24 inches in depth.

  1. Grass is often sown above the ground.
  2. The leach field is comprised of rows of perforated pipes in gravel trenches that are used to spread wastewater over a vast area in order to further purify it.
  3. A bacteria-rich slime mat forms where the gravel meets the soil, and it is responsible for the majority of the water purification work.
  4. Despite the fact that wastewater freezes at a far lower temperature than pure water, freezing is still a hazard in cold areas.
  5. The leftover pathogens are converted into essential plant nutrients by these organisms, while sand, gravel, and soil filter out any solids that remain.
  6. If the system is operating effectively, the filtered wastewater will return to the aquifer as naturally clean water that is suitable for human consumption at this stage.
  7. Alternative systems may be permitted in situations when traditional leach fields are unable to function properly owing to poor soil conditions or a high water table.
  8. Special systems may also be necessary in regions where there are flood plains, bodies of water, or other ecologically sensitive areas to protect against flooding.

SIZING THE LEACH FIELD

Using perforated pipes put in gravel-filled trenches, the drain field is sized to accommodate the number of beds in the house. In order for the system to function successfully, the leach field must be appropriately sized for the soil type and amount of wastewater, which is normally determined by the number of bedrooms in the house. In order for the liquid to seep into the soil, it must be permeable enough to do so. As a result, the denser the soil, the larger the leach field that is necessary.

  1. Better to have surplus capacity in your system than to have it cut too close to the bone.
  2. Septic tank backup into your house, pooling on the surface of the earth, or polluting local groundwater are all possibilities if the ground is incapable of absorbing the liquid.
  3. Dense clay soils will not absorb the liquid at a sufficient rate, resulting in a backlog.
  4. If the soil is mostly composed of coarse sand and gravel, it might drain at such a rapid rate that untreated sewage can poison the aquifer or damage surrounding bodies of water.
  5. Alternative systems may be permitted in situations when traditional leach fields are unable to function properly owing to poor soil conditions or a high water table.

These systems sometimes cost twice or three times as much as a regular system and require significantly more upkeep. Near flood plains, bodies of water, and other ecologically sensitive places, special systems may also be necessary to protect people and property.

SEPTIC SYSTEM CAREMAINTENANCE REQUIRED

If you take good care of your system, you will be rewarded with years of trouble-free operation. Pumping the septic tank on a regular basis is necessary to remove the particles (sludge) and grease layer (scum) that have built up in the tank. The solids will ultimately overflow and spill into the leach field, decreasing its efficacy and diminishing its lifespan if this is not done. The rehabilitation of a clogged leach field is difficult, if not impossible; thus, constant pumping is essential!

  • Cooking fats, grease, and particles may also wash into the leach field if the tank is too small for the amount of water being used or if the tank is overcrowded on a regular basis.
  • Extra water from excessive residential consumption or yard drainage can overwhelm the system, transporting oil and particles into the leach field and causing it to overflow.
  • In addition, don’t try to complete a week’s worth of laundry for a family of five in a single day.
  • To minimize overburdening the system, the following measures should be taken:
  • Distribute your washing loads and other high-water-use activities across the week
  • And In the kitchen and bathroom, use low-flow appliances, faucets, and fixtures. Toilets, in general, are the source of the greatest amount of water use. Water should be diverted away from the leach field from the yard, gutters, and basement sump pumps.

In addition, refrain from flushing sediments, strong chemicals, and just about anything else down the toilet or sink other than biological waste and white toilet paper. Avoid using garbage disposals in the kitchen. If you really must have one, keep it for small non-meat bits only. Avoid flushing chemicals or paints down the toilet since many chemicals can destroy beneficial microorganisms or cause water contamination in the surrounding area. Avoid flushing the following down the toilet:

  • Grease, fats, and animal scraps
  • Paints, thinners, chemicals, and pharmaceuticals
  • And a variety of other materials sanitary napkins, tampons, and other supplies Paper towels and disposable diapers are examples of such products. Egg shells, coffee grounds, and nut shells are all good options. Antibacterial soaps and antibiotics are available.

It is preferable to put grass over the leach field and to refrain from driving or parking in the vicinity. Excessive weight placed on top of the drain field might compress the earth, diminishing its efficiency as a drain field. Drain pipes can also become clogged by trees and plants with invasive roots. In order to prevent damage to the leach field, the following measures should be taken:

  • Heavy machinery should not be driven, parked, or stored on top of the leach field (or septic tank). Placement of a deck, patio, pool, or any other sort of construction over the leach field is prohibited. Remove any large trees or other plants with deep roots from the leach field. Grass is the most effective groundcover.

Even with careful use and routine maintenance, however, leach fields are not guaranteed to survive indefinitely. It is inevitable that the soil will get saturated with dissolved elements from the wastewater, and that the soil will be unable to absorb any more incoming water. The presence of an odorous wet area over the leach field, as well as plumbing backups in the house, are frequently the first indicators that something is wrong. Many municipalities mandate septic system designs to incorporate a second “reserve drain field” in the case that the first field fails.

A well constructed and maintained system should last for at least 20 to 30 years, if not longer than that. After a few tears, the initial field will naturally heal and may be used once again when the situation calls for it to be. More information on Septic System Maintenance may be found here.

SEPTIC SYSTEM PERFORMANCE PROBLEMS

Poor original design, abuse, or physical damage, such as driving heavy trucks over the leach field, are the root causes of the majority of septic system issues. The following are examples of common situations that might cause a septic system to operate poorly: Plumbing in the home. obstructed or insufficient plumbing vents, a blockage between the home and the septic tank, or an insufficient pitch in the sewer line leading from the house are all possible causes. Sewage tank to leach field connection Septic tank and leach field blockage caused by a closed or damaged tank outlet, a plugged line leading to the leach field caused by tree roots, or a blockage caused by sediments that overflowed from the tank Piping in the leach field.

Most of the time, tree roots do not make their way through the gravel bed and into the perforated pipe.

Reduced flows, achieved through the use of flow restrictors and low-flow faucets and fixtures, may be beneficial.

Because of the seasonal high water table, the soil around the trenches might get saturated, reducing the soil’s ability to absorb wastewater.

This may frequently be remedied by adding subsurface drains or curtain drains to intercept the water flow into the leach field region and to lower the water table in the immediate area around the drainage system.

Likewise, see: In order to do a perc test, who should I hire?

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