The suburban sewage system has some features that affect the sanitary condition of the entire land plot. The efficiency of filtering sewage depends on the design of autonomous treatment facilities.
As the last stage of cleaning, the filtration field for the septic tank, which is necessary for the post-treatment of the liquid, is often used. We will find out how to make the calculations correctly and build the field with your own hands.
Filtration field as part of the sewage system
Without the main part that performs the initial processing of sewage waste, that is, a septic tank, the filtration field is not used, since its purpose is the post-treatment of the already purified liquid. To make it clearer, consider how VOC works.
The cleaning process begins in the drive, where sewage is divided into different fractions: solid mineral waste precipitates, fat floats and forms a film, some of the substances remain in the water as a suspension. If air supply is not provided, the process of decomposition of some of the waste occurs due to the activity of anaerobic bacteria.
Scheme of a sewer system consisting of an internal sewer, a two-chamber septic tank with air supply (storage + aerobic compartment), a collector and a filtration field
Further, the liquid flows into the next compartment, equipped with ventilation, where aerobic microorganisms are involved in the treatment of wastewater. They form activated sludge, which can later be used as fertilizer. The result of two-stage cleaning is a slightly turbid liquid that is not yet suitable for use.
It turns into industrial water or simply falls into the ground (ditch, pond) after undergoing post-treatment, which is performed in the following way:
- on the filtration field;
- in the infiltrator;
- directly in the ground;
- in the filter well.
A typical multi-stage system with dozens of options is good because it effectively cleans sewer waste, minimizes cooperation with sewage trucks and maintains a clean ecology of the garden. And now we will dwell in more detail on the design of the filtration field.
Design features of PF
Filtration field - a relatively large area of land on which there is a secondary cleaning of the liquid.
This cleaning method is exclusively biological, natural in nature, and its value in cost savings (no need to buy additional devices or filters).
The size of the PF depends on the area of free territory and the landscape features of the garden plot. If there is not enough space, instead of the PF, an absorbing well is arranged, which also filters the liquid before it enters the ground
A typical device of a filtration field is a system of parallel-laid drainage pipes (drains) that extend from the collector and are placed at regular intervals into ditches with a thick sand and gravel layer.
Previously used asbestos-cement pipes, now there is a more reliable and economical option - plastic drains. A prerequisite is the availability of ventilation (vertically installed risers that provide oxygen access to the pipes).
The design of the system is aimed at ensuring that the liquid is evenly distributed over the allocated area and has the maximum degree of purification, therefore there are several important points:
- the distance between drains - 1.5 m;
- the length of the drainage pipes is not more than 20 m;
- pipe diameter - 0.11 m;
- intervals between ventilation risers - not more than 4 m;
- risers height above ground level - at least 0.5 m.
To ensure the natural movement of the fluid, the pipes have a slope of 2 cm / m. Each drain is surrounded by a filtering “pillow” made of sand and pebbles (gravel, gravel), and is also protected from land by geo-cloth.
One of the device’s difficult options: after cleaning in the filtration field, water enters the storage well, from where it is pumped out using a pump. Its further path - to a pond or ditch, as well as to the surface - for irrigation and technical needs
There is one condition, without which the installation of a septic tank with a filtration field is impractical. Special throughput properties of the soil are required, that is, on loose coarse and fine clastic soils that do not have a bond between the particles, it is possible to build a post-treatment system, and dense clay soils, the particles of which are bonded in a consolidated manner, are not suitable for this.
Typical device diagram
Whatever the overall dimensions of the filtration field, its design consists of the following parts:
- collector (control well, distribution well);
- a network of plastic drains (drainage pipes with holes);
- vent risers;
- filtering "pillow".
Traditionally, the drainage layer is poured from sand and gravel (gravel, pebbles). Geotextiles are used to protect drains. Sewer system with PF looks like this:
Pay attention to the thickness of the drainage pillow. The minimum thickness is considered to be the total thickness of 1 m, in this diagram it is larger: crushed stone - 0.3-0.4 m, sand - 0.8-1 m
When constructing a filtration field with your own hands, it is not necessary to build a collector yourself - you can find plastic sewage tanks of the required volume on sale.
Often they do without a distribution well, connecting a septic tank and a pipe system directly - but this is convenient for small-sized PFs.
Scheme of the filtration field with an area of 4 mx 3.75 m. The distance between the drains is 1.5 m, each drain pipe is equipped with a ventilation riser. As an underground filter - a "pillow" of sand and gravel with a layer of geotextiles
Sometimes, instead of PF, ready-made plastic devices are used - infiltrators. They help out when there is a shortage of free area, and the soil does not have layers of loam with sandy loam and has sufficient flow properties.
If desired, you can install several infiltrators connected by pipes in series.
Scheme of a local sewer system with an infiltrator. In the filtration fields, flower beds are not recommended to be broken, since the root system can damage the pipes. For an infiltrator, in contrast, flower decor is the most appropriate option.
Next, consider how to properly design and install the PF.
Filter Field Design
Designing is an obligatory stage before any serious construction. It is necessary to accurately markup, make calculations, knock estimates, prepare materials, take into account all the nuances.
A professionally designed project will save you from mistakes that are common to inexperienced beginners.
How to choose a scheme and choose a place?
The choice of scheme depends on three factors:
- type of septic tank;
- availability of free territory;
- cleaning requirements.
The fact is that the degree of purification in different septic tanks is different. For example, biological treatment plants (Topas, Astra, Eurobion) do not need a filtration field at all: 98% purified water immediately enters the drainage trench or reservoir.
Septic tanks, built independently from concrete rings, bricks or tires, on the contrary, are not themselves effective treatment facilities, therefore, the liquid leaving them requires additional treatment.
We recommend that you read the instructions for self-installation of various types of septic tanks:
- Septic tank made of concrete rings: device, schemes + step-by-step installation process
- How to build a drain pit of brick: options and methods of the device
- How to arrange a septic tank from tires with your own hands: step-by-step instructions
- How to make a two-chamber septic tank out of concrete rings: a building instruction
As a rule, all sewerage elements are located in one line, that is, they are arranged alternately in the same direction from the house - first a septic tank, then a filtering field.
Scheme of a septic tank of 3 chambers (sump + anerobic treatment chamber + storage well) constructed of concrete rings with a filtration field equipped with a ventilation system
This means that when installing a septic tank, it must be borne in mind that part of the free territory behind it will be required for the construction of the PF (or, at least, the installation of an infiltrator).
With volumetric discharge of sewage, the principle works: the “branchier” and longer the drainage pipe network, the more effective the treatment.
It is worth initially paying attention to the specifics of the filtering field device:
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Optimum containment primers
Excavation pit with constructed filtration field
Area allocated to the filtration field
Turn-type soil filtration system
Sizing and costing
In order to correctly calculate the size of the field, it is necessary to take into account the daily amount of runoff and soil composition. If you know exactly the features of the soil, you can push off from the volume of the septic tank.
The table will help in calculating the filtering field.
Suppose the volume of your septic tank is 8 m³, and the soil composition is coarse-grained uniform sand. Consequently, effective cleaning of the liquid from the septic tank will require at least 4 m of perforated pipes (or 2 pipes of 2 m each)
But these are approximate estimates. There are tables to more accurately determine the size of the "working" area. They are based on accounting for such qualities as the permeability of soils.
Here is a variant of such a table, which may be useful to owners of suburban areas with clay or sandy soils.
According to the table, it can be concluded that areas with clay soils are not suitable for the installation of a filtration field, and sandy areas with medium-grained and coarse-grained sand are the most suitable
Peat indices correspond to the data on dusty sand, and pebble and gravel have the maximum water permeability: their filtration coefficient is 100-200 m / day. For them there are no permissible load standards, since such a loose composition is able to pass any volume of liquid.
Having determined the size of the field, you can calculate the number of pipes, ventilation risers (on average 1-2 for each drain), backfill (gravel, pebbles, gravel, sand), geotextiles, and then derive the approximate cost of all materials.
Installation Instructions PF
In addition to these materials, you will need a tool for excavating (shovels, buckets, wheelbarrows). Trenches intended for drainage are not as deep as the foundation pit for a septic tank, so construction equipment can be omitted. However, a few pairs of hands will speed up the process.
The cycle of work on the device of the filtering field is conditionally divided into a number of standard steps:
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Stage 1: Laying drainage pipes at the bottom of the pit
Stage 2: Supply of sewer piping to the system
Stage 3: Assembly and installation of ventilation risers
Stage 4: Filling the excavation pit with sieve soil
Stage No. 1 - the device of trenches
At the first stage, it is necessary to prepare a place for laying perforated pipes. There are two ways: you can dig one large pit, and then it will be more convenient to arrange drainage and assemble the structure from pipes, or you can make several trenches (according to the number of drains), which will significantly reduce the construction time.
The depth of the pit should be such that the liquid in the pipes does not freeze during the cold season, that is, a branched pipe system must be placed below the level of freezing of the soil. When installing the ditches, you need to remember about a slight slope that allows the fluid to move naturally - by gravity. The slope is 1.5-2 cm / meter pipe.
A drainage structure usually consists of 2-3 or more branches. This is because the length of one branch should not exceed 20 m, and 20 m is clearly not enough to ensure the filtration of the entire volume of water
During the construction of PF adhere to strict geometry. The foundation pit, as a rule, has a square or rectangular shape, and the trenches are the same in length. Suppose you need a total pipe length of 60 m - you can make 4 branches of 15 m or 6 branches of 10 m. The length of one drain is the distance from the inlet pipe (or collector) to the last ventilation “fungus”.
The lower part of the trenches is covered with coarse sand (from 10 cm to 1 m), then 0.4-0.5 m with gravel (crushed stone, pebbles). If drainage drains are needed, they are placed in the ground under the sand, but not less than 1 m above the groundwater.
One of the options for filtering field devices. The only thing that does not matter is the composition of the soil by which the installed drainage system is backfilled. This may be sand remaining from the "pillow", and the soil that was taken out during the construction of the pit
Drainage pipes lead to a storage tank located on the opposite side of the septic tank.
Stage number 2 - laying perforated pipes
On the prepared base lay drainage pipes made of plastic. The process itself is quite simple, the main thing is to choose the right pipes.
You can buy ready-made ones - smooth or corrugated, with perforation and a textile layer, or you can take ordinary sewers and drill holes in them with a drill. The recommended diameter of the drain is 100-110 mm.
Corrugated pipe with perforation and geotextile filter. Production material - PND, diameter - 110 mm, laying depth - maximum 5 m. Sold in bays, the cost of a running meter - 140-160 rubles.
Together with the pipes, it is necessary to purchase a set of fittings for connecting different elements. Need corners and tees. The process of laying drainage pipes is described in more detail in this material.
Stage 3 - ventilation device
The ventilation system is necessary for oxygen to enter the pipes, without which aerobic bacteria lose their viability. For ventilation risers, you can use ordinary gray sewer pipes, covering them with lids on top to protect them from debris.
If the drains are no longer than 4 meters, ventilation pipes are installed at the end of the branches. Longer pipes are equipped with 2-4 risers, "fungi", which cut into the drains using tees
The minimum height of ventilation pipes above the ground is 0.5 m. Usually they try to make them more accurate or decorate in order to maintain the aesthetic appeal of the garden landscape.
Stage 4 - backfill and further maintenance
After laying the perforated pipes, it is necessary to backfill. From the sides and from above, each branch is covered with gravel (the top layer is about 50 mm), then it is covered with a layer of geotextile and a finishing thick layer of soil. Geotextiles are used to prevent siltation of pipes. The earth above the drains must be compacted, but so as not to damage the pipes.
The filtering field is included in the work with the septic tank. Special actions for servicing drains are not provided. It is believed that the PF has been functioning smoothly for 6-7 years, after which it is necessary to disassemble the structure and replace the gravel filter. To increase the filter service life, geotextiles are also laid under a layer of gravel (crushed stone).
As a convenient installation alternative to the traditional filtration field, a modern version has been developed - a cartridge of infiltrators, the installation of which will be introduced to the following photo selection:
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Step 1: Design a trench for the cartridge infiltrator
Step 2: Laying the geotextile at the bottom of the trench
Step 3: Backfill rubble at the bottom of the trench
Step 4: Installation and Connection of Infiltrators
Step 5: Filling the trench with crushed stone infiltrators
Step 6: Covering the created system with geotextiles
Step 7: Filling the trench with the device with soil
Step 8: Landscaping with Autonomous Sewerage
Are there other solutions?
Not everyone can use the filtration field as a way of post-treatment of sewage. What to do to those who own a clay land or have built a house in an area with a high level of groundwater?
Recommendations for the selection of septic tanks for high AHW are described in this article.
The scheme of the biological treatment plant. Having passed through several tanks equipped with aerators, airlifts and filters, the water becomes 98% clean. The main function of waste processing, as in septic tanks, is performed by anaerobic and aerobic bacteria
You can also create a sewer system with a filtering well, but a number of conditions are also necessary for its installation (for example, non-clay soil and the location of groundwater one meter below the conditional bottom of the well).
If you simply install a septic tank without additional treatment, insufficiently clarified and disinfected water will enter the soil and an unpleasant odor may appear.
Videos with useful information about the design of treatment facilities.
Septic Rostock with PF:
Theory of arrangement of a septic tank with filtering fields in pictures:
You can build a filtration field with your own hands, if you correctly calculate and fulfill all the installation conditions. To determine the type of soil or choose a septic tank, you can contact specialists. A complete wastewater treatment system is a guarantee of environmental cleanliness, and therefore, comfort.
After studying our article, there were questions about arranging the filtering field, please write them in the comments box and we will try to respond to them promptly.