G1424

Residential Onsite Wastewater Treatment: Septic Tank and Drainfield Maintenance

This NebGuide discusses recommended practices for the operation and management of residential onsite septic systems for wastewater treatment.


Jan R. Hygnstrom, Extension Project Manager
Sharon O. Skipton, Extension Water Quality Educator
Wayne E. Woldt, Extension Environmental Engineer


Figure 1. Typical components of a septic tank system for residential wastewater treatment.
Figure 1. Typical components of a septic tank system for residential wastewater treatment.
 
Figure 2. Septic tank.
Figure 2. Septic tank.
 
Figure 3. Drainfield with chamber prior to backfilling with soil for a gravelless system.
Figure 3. Drainfield with chamber prior to backfilling with soil for a gravelless system.
 
Figure 4. Measurements to determine if a septic tank should be pumped.
Figure 4. Measurements to determine if a septic tank should be pumped.

Many Nebraskans live in homes located in rural areas or small communities without access to a public wastewater treatment system. Instead, they must rely on their own private systems for wastewater treatment and disposal. The most common onsite system is a septic tank used in combination with a traditional drainfield. A properly designed, installed, and maintained system should operate for 20 to 40 years or more, treating wastewater to minimize the negative impact on groundwater, surface water, and human health.

This publication covers proper maintenance of a septic tank and traditional drainfield wastewater treatment system.

In a septic tank/drainfield system (Figure 1), wastewater flows from the household wastewater plumbing into an underground septic tank. There, waste components naturally separate, with heavier solids settling to the bottom forming sludge, and lighter solids floating to the top, forming scum (Figure 2). Bacteria begin to treat wastewater by partially decomposing the solids. The liquid (effluent) flows through the outlet to the subsurface drainfield, also called a soil absorption field, leach field, soil treatment area, or laterals. A system may have a drop box or distribution box between the septic tank and the drainfield to distribute effluent evenly between the drainfield trenches, described below. The drainfield usually consists of a series of underground parallel trenches, each containing a distribution pipe embedded in gravel or rock, or using gravelless chambers (Figure 3). The effluent flows through the distribution pipes or chambers where it moves through holes in the pipe or chambers down into the soil. The soil filters out remaining small solids and pathogens (disease-causing microorganisms). Also, bacteria and other microorganisms in the soil treat pathogens and other contaminants in the effluent. Water, carrying dissolved substances such as nitrate, slowly moves down to groundwater. Nebraska regulations require at least 4 feet between the bottom of the drainfield and groundwater or bedrock to minimize the movement of pathogens into groundwater.

System Maintenance

Proper maintenance of a septic tank and drainfield is critical to keep the system functioning properly. This protects human health and the environment. In addition, it delays the need to repair or replace a system, thereby saving the homeowner money.

Have the septic tank pumped regularly.

One of the most important things you can do to keep the system functioning properly is to have the septic tank pumped regularly. Scum and/or sludge could build up, reducing the effective tank volume, and resulting in wastewater moving through the tank more rapidly with less treatment. In addition, solids could be carried to the drainfield if the tank is not pumped regularly. This will clog the drainfield and not allow wastewater to be treated. Wastewater may form a pond in the yard or back up into the house. At this point, the owner is probably facing costly repairs or replacement instead of minimal maintenance expenses.

Several factors determine tank-pumping frequency, related to the amount and characteristics of wastewater generated. One important factor is whether a garbage disposal is used. Many experts recommend pumping a tank every two to three years. Depending on use, a tank may need to be pumped more or less frequently. A safe approach is to have the tank checked annually until it is determined that pumping is required. Once the pumping interval is established, use that schedule until wastewater patterns change. Additional people living in the home, children becoming teenagers, the installation of a garbage disposal, or the addition of a whirlpool tub could all increase water usage and wastewater generation. Conversely, fewer people living in the home could decrease water use and wastewater generation.

A septic tank (Figure 4) should be pumped when:

To determine these distances, a septic tank must be opened and checked, and measurements must be taken. Certified professionals in the onsite wastewater treatment industry can look over a septic tank. Only qualified service personnel using proper safety precautions should enter a septic tank.

Lack of oxygen or the presence of dangerous gases in the tank could be fatal. Do not allow anyone to smoke in the tank’s vicinity because volatile gases may be present. Secure septic tank lids with locking mechanisms such as padlocks, specialized bolts or other devices to keep out children and animals.

Only a Nebraska certified pumper, professional engineer or registered environmental health specialist may legally pump a septic tank. A good pumper will:

Conserve water and spread out water usage.

Conserving water to reduce the amount of wastewater that needs to be treated and distributing water flow to the septic tank over an extended period of time will extend the life of a system. Wastewater should remain in the septic tank long enough, at least 24 hours, for heavy solids to settle out, forming sludge, and light solids to float to the top, forming scum. Except for the period immediately after pumping, however, a septic tank contains wastewater to its full capacity at all times. As a gallon of wastewater flows into the tank from the house, a gallon of effluent flows out of the tank into the drainfield. If wastewater moves in and out of the tank too rapidly, due to constant flow for extended periods, or heavy water flow at any time, solids remain suspended in the wastewater. This means they may move with the effluent out of the tank and into the drainfield. Solids can clog a drainfield, decreasing its ability to treat wastewater. This can lead to costly repairs or even replacement. Conserve water and spread out water usage by following these suggestions:

If you use a water-softening unit, select one with demand-initiated regeneration. This means regeneration is determined by measuring gallons of water used, or by measuring the change in the electrical conductivity of the resin bed, or by sensing a change in water hardness.

Manage solids in wastewater.

Manage what is flushed down the toilet or drain to reduce the amount of solids in wastewater. More solids in wastewater will require more frequent septic tank pumping. Follow these tips:

Keep potentially hazardous materials out of wastewater.

The septic system is not the best way to dispose of some materials. While a septic tank and drainfield system can adequately treat many pathogens in wastewater, it cannot effectively treat all hazardous materials. Keep potentially hazardous materials out of wastewater by following these tips:

Let the system work naturally.

Research shows that septic system starters, additives, or feeders are not necessary to keep a system working and are not a solution for improperly installed, designed, or maintained systems. In some cases, additives may keep materials suspended in the wastewater and allow them to flow out of the tank where they can clog the drainfield. Follow these recommendations:

Protect the drainfield.

While the drainfield does not require maintenance, a few precautions will help ensure proper functioning and a long service life. The drainfield should not be inundated with excess water, as extra water will reduce the ability of wastewater to percolate through the soil as needed for proper treatment. The drainfield should not be compacted; compaction will prevent the drainfield from treating wastewater properly. The structural integrity of the drainfield must be maintained. Follow these tips to protect the drainfield:

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*These are minimum distances required between the tank or laterals and items such as surface water, wells, and foundations. See Nebraska Department of Environmental Quality Title 124 for distances.

Figure 5. Sample sketch of lot.
Figure 5. Sample sketch of lot.

Keep records.

Keep detailed records of repairs, pumping, and other maintenance activities. Keep a sketch of the location of the septic tank and drainfield for future maintenance (Figure 5). This is required by Nebraska regulations and is also important information for potential buyers if the property is ever for sale.

Troubleshooting Septic Tank/Drainfield Systems

Problems may include sluggish drainage, contaminated drinking water, wastewater surfacing in the yard, odors, or pipes freezing. If any of these occur, use the following list to help narrow down the cause of the problem.

Summary

A properly designed, installed and maintained septic tank and drainfield system should treat wastewater in a way that minimizes the impact on groundwater, surface water and human health. Proper maintenance includes having the tank pumped regularly by a certified professional, conserving water and spreading out water usage, managing solids in wastewater, keeping potentially hazardous materials out of wastewater, not using additives, and protecting the drainfield.

Acknowledgments

Partial funding for materials development was provided by the U.S. Environmental Protection Agency, Region VII and the Nebraska Department of Environmental Quality under Section 319 of the Clean Water Act (Nonpoint Source Programs).

This publication has been peer reviewed.


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Index: Waste Management
Home Waste Systems
2001, 2005, Revised March 2010
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