How To Pump Above Ground Septic Tank? (Correct answer)

  • Step 1: Prepare the Basin. … Step 2: Install New Check Valve. … Step 3: Test the Pump and Float Switch. … Step 4: Attach Adapter and Pump to Discharge Pipe. …

How does a above ground septic tank work?

Wastewater flows from the home to a septic tank, then via gravity to a pumping tank which pumps it to a sand mound located above ground level, where it is evenly distributed throughout the drain field.

Can you pump septic uphill?

If you want to install a bathroom in a house and the pitch of the house runs the wrong direction, you can always install a sewage ejector by the bathroom and pump the sewage uphill. The distance the water will travel determines the horsepower of the pump.

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.

How do I hide my above ground septic tank?

The Do’s For Hiding Your Septic Tank

  1. Plant tall native grasses with fibrous roots around the opening to conceal the tank lid from view.
  2. Place a light statue, bird bath or potted plant over the septic lid.
  3. Septic tank risers and covers are an alternative to concrete and blend into green grass.

How much does it cost to pump a septic tank?

How much does it cost to pump out a septic tank? The average cost is $300, but can run up to $500, depending on your location. The tank should be pumped out every three to five years.

How far will a sewage pump pump?

Sewage ejector pumps are designed to pump raw sewage from your home into a septic tank or gravity flow sewer main. For this reason, they can only pump to distances under 750 feet. However, a benefit of sewage ejector pumps is that they are built to move up to 200 gallons per minute of raw sewage.

How far can a septic lift station pump?

These pumps are designed for short pumping distances ( under 750 feet ) and can handle head pressures of nearly 75 feet.

Can you uphill leach field?

Answer: Unless you have a mound system, or another pumped system with a dosing chamber and lift pump, you are correct that you need a downhill slope in the sewage lines. The tank will not drain uphill to the drain field. The leach lines themselves, however, should be set level.

What kind of pump do you need to pump out a septic tank?

Effluent pumps are typically used to pump grey-water from a septic tank to a leach field. For raw sewage, a sewage pump or grinder pump is recommended to prevent clogging from handling solids larger than 3/4″ in width.

Do you need to pump both sides of a septic tank?

Septic tanks installed after the late 1980s have two compartments, and it is important to pump out both compartments each time. Most homeowners are unaware when their septic tank has two compartments; some companies use that to their advantage, charging to pump both sides of the tank but only actually pumping out one.

How do you tell if your septic tank is full?

How to tell your septic tank is full and needs emptying

  1. Pooling water.
  2. Slow drains.
  3. Odours.
  4. An overly healthy lawn.
  5. Sewer backup.
  6. Gurgling Pipes.
  7. Trouble Flushing.

What can I use instead of a septic tank?

Alternative Septic Systems

  • Raised Bed (Mound) Septic Tank Systems. A raised bed drain field (sometimes called a mound) is just like what it sounds.
  • Aerobic Treatment Systems (ATS) Aerobic systems are basically a small scale sewage treatment system.
  • Waterless Systems.

Are septic tanks still legal?

Septic Tanks Explained… Septic tanks cannot discharge to surface water drains, rivers, canals, ditches, streams or any other type of waterway. you are required to upgrade or replace your septic tank treatment system to a full sewage treatment plant by 2020, or when you sell a property, if it’s prior to this date.

Is it OK to drive over drain field?

Can You Drive on a Septic Drain Field? No, driving over your septic drain field is similarly never ever recommended. As much as you are able to help it, prevent cars or heavy equipment (such as oil delivery trucks, swimming pool water trucks, cement mixers, and also the like) to drive straight over the field.

Above Ground Septic System: How They Work and Their Advantages

Because of the greater risk of failure associated with traditional septic systems, when site circumstances are not ideal for establishing a conventional septic system, an above ground septic system, also known as a sand mound system, is utilized for on-site sewage treatment. A look at the key factors that might cause a septic system to fail, the implications of a failure, and how an above-ground septic system can provide a solution to these issues are discussed in this article. Every residence that is not linked to a sewage system requires some means of treating the sewage that is created by the individuals who live in the home in which they are located.

In most cases, they are comprised of an underground concrete, plastic, or fiberglass chamber divided into two portions.

The sediments are processed anaerobically within the chambers, while the residual effluent is discharged through gravity into a drain field, where it is naturally filtered by microorganisms in the soil before being discharged into the groundwater under the surface.

Typically, there are three naturally occurring characteristics that make it impossible to establish a traditional underground septic tank system that discharges to a conventional drain field.

  1. When the percolation rate of the soil is either slow or too quick, the soil’s permeability is reduced. Effluent will reach groundwater without being effectively filtered or cleaned by microorganisms in extremely permeable soils (such as very sandy soils) with a fast percolation rate in highly permeable soils. It is possible, however, that water will not drain away quickly enough in soils with poor permeability (such as clay soils) and a low percolation rate because of this. A result of this may be waterlogging in nearby soils and surface ponding that can be hazardous to human health and well-being in the long run. As previously stated, the primary goal of a drainage field is to allow for the unsaturated flow of effluent to the groundwater, which exposes the wastewater to microorganisms in the soil that break down waste and destroy pathogens, it is critical that the soil does not become too saturated in order for treatment to be effective (as explained in greater detail below).
  1. When there is a limited layer, which is often a shallow layer of soil sitting over a layer of clay, porous bedrock, or perched groundwater wedged between rock and soil, the effluent treatment efficacy is reduced as it filters through the soil. Having a high water table occurs when there is insufficient distance between the drainfield and the water table to filter and treat the effluent before it reaches the water table, resulting in the groundwater becoming polluted and potentially endangering drinking water supplies. If the groundwater becomes polluted, the contaminants can be transferred away from the location via lateral groundwater movement, contaminating neighboring freshwater systems
  2. Should this occur.

The use of a traditional septic system is not recommended when one or more of the circumstances listed above exist because the septic system is more likely to collapse, creating an environmental and human health hazard. Above-ground septic systems, which allow for more suitable conditions to be established above ground level by artificially increasing the height of the filter bed, are a more acceptable sewage treatment option in these types of situations, and are becoming increasingly popular.

Protecting EnvironmentalHuman Health

Grey water (from sources such as bathing/showering, laundry, dishwashing, and so on) and black water (from sources such as toilets, sinks, and so on) constitute household wastewater (human waste). If not treated properly, this effluent can include a wide range of chemical contaminants and pathogenic organisms that can be dangerous to human health if not treated properly. Typhoid, cholera, dysentery, giardiasis and other gastrointestinal illnesses can occur as a result of the presence of disease-causing microbes in human feces.

When clay or tight soils are prevalent, a sand mound method is used.

loading=”lazy” src=”is-pending-load=1 038;ssl=1″ alt=”above ground septic system” loading=”lazy” src=”is-pending-load=1 038;ssl=1″ width: 501 pixels, height: 571 pixels ” data-recalc-dims=”1″ data-lazy-src=” is-pending-load=1 038; ssl=”” srcset=”data:image/gif;base64,R0lGODlhAQABAIAAAAAP” data-recalc-dims=”1″ data-lazy-src=” is-pending-load=” is-pending-load=1 038; ssl=”” data-recalc Septic system with a sand mound The contamination of soils, groundwater, and surface water systems by improperly treated human waste can pose a health risk to anyone who comes into contact with it, whether directly or indirectly, for example, through the consumption of contaminated water, the consumption of contaminated food (e.g., fruits, vegetables, shellfish), or the swimming in contaminated rivers, lakes, or coastal bays Furthermore, because untreated sewage is both unattractive and foul-smelling, it is definitely not something you want to have pooling up on your back yard lawn.

The opposite appears to be true, as flies, rodents, and even the family dog are drawn to it like bees to a honeypot, spreading it around the house, as well as any diseases that may be lurking inside it, according to the author.

Infants who are exposed to nitrates in their drinking water can develop blue baby syndrome, which is characterized by a decrease in the capacity of the blood to transport oxygen, and which can be deadly.

Take a look at our above-ground septic system maintenance plan for more information on how to maintain these sorts of systems operating efficiently for extended periods of time.

How do Sand Mound Septic Systems Work?

Wastewater is channeled from the residence to a septic tank, where it is pumped to a sand mound positioned above ground level, where it is spread equally over the drain field. When wastewater is discharged into the drain field, it percolates through the sand and gravel bed, where microorganisms in the soil digest any harmful bacteria that may be present.

Removal of Pathogens

The vertical barrier between the septic system and the groundwater serves as the first line of defense in the fight against disease transmission. Because of this, it is critical that there be adequate depth between the two to allow the population of microorganisms (good bacteria, fungus, protozoans, and nematode worms) that live in the soil to accomplish their jobs. The depth between the two should be at least six inches. These germs, in contrast to the anaerobic bacteria that live inside the septic tank, require oxygen to thrive and perform their functions.

Another key point to remember about these microorganisms is that they reside on the surface of the soil particles, where they filter toxins from the effluent as it passes past them through air gaps between the grains of soil.

The microorganisms that have taken up home in the system are the blue-collar employees who maintain the system operating at peak performance.

Removal of Nutrients

Septic systems that have vegetation planted in them not only seem more visually beautiful, but they also perform better in terms of overall performance. Water absorbed by the plant roots from the soil serves two purposes: 1) it reduces the likelihood of the soil becoming waterlogged, and 2) it allows the plants to absorb dissolved nutrients (such as those responsible for blue baby syndrome and algal blooms) for their own growth, thereby reducing the risk of the soil becoming waterlogged. However, it is critical to pick vegetation judiciously, preferably grass and/or tiny plants with shallow root systems rather than large trees and shrubs.

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Key Components of an Above Ground Septic System

Generally speaking, above-ground septic systems are comprised of three major components: 1) a septic tank (pretreatment unit), 2) a dosing chamber that houses the pump, and 3) an above-ground sand mound that acts as a drainage bed for the system.

The Septic Tank

This enormous concrete, polyethene, or fibreglass chamber that is buried below serves as a pretreatment separation chamber. The septic tank is where the effluent from the home is disposed of. Upon entering the tank, the wastewater divides into three layers: the heavier solid matter (sludge) falls to the bottom, the middle layer consists primarily of liquid effluent, and the lighter particles (scum) float to the top. The anaerobic bacteria that flourish in these oxygen-free circumstances breakdown some of the sludge that accumulates at the bottom of the septic tank’s bottom.

The Dosing Chamber

The dosing chamber, also known as the pump chamber, is similarly made of concrete, polyethene, or fiberglass, and is equipped with a pump, pump control floats, and a high-water alarm float. It collects the effluent that flows from the septic tank and is connected to the main sewer line. As soon as the level of the effluent in the tank reaches that of the control float, the pump is activated and begins pumping a predefined volume of effluent up to the sand mound, which is placed above the ground level.

  • Adjusting the control floats located in the pump chamber allows for the delivery of the most suitable volume of effluent that the mound is capable of processing.
  • Designed to activate if the effluent levels increase above the ‘on’ float without triggering the pump, this feature is configured to activate.
  • It is a good idea to make certain that the pump can be removed without breaking a sweat in the event that things go horribly wrong.
  • In the event that the pump fails, a length of nylon rope linked to it will make it easier to remove it from the chamber.

The Sand Mound

The dosing chamber, also known as the pump chamber, is similarly made of concrete, polyethene, or fiberglass, and is equipped with a pump, pump control floats, and a high-water alarm float. It gathers the effluent that flows from the septic tank and is connected to the sewer system. As soon as the level of the effluent in the tank reaches that of the control float, the pump is activated and begins pumping a predefined volume of effluent up to the sand mound, which is placed above the ground surface.

Pump chamber control floats may be changed so that they discharge the most suitable volume of effluent for the mound’s processing capacity.

As soon as the effluent levels exceed the ‘on’ float, this is programmed to activate, preventing the pump from being turned on.

Making ensuring that the pump can be removed without breaking a sweat in the event that things go wrong is a smart idea in any situation.

In order to make access to the pump as simple as possible, a fast release coupler should be installed on the pump discharge line. In the event that the pump fails, a length of nylon rope linked to it will make it much easier to remove it from the chamber.

Things to Consider WhenDesigningSand Mound Septic Systems

When planning to build an above-ground septic system, it is critical to understand the soil qualities of the area in question. It is important to have a professional soil evaluation performed by a trained soil analyzer to get the best results. According to your location, this may be required by law, but even if it is not, it is still a good idea to do so in order to determine the flow rate of the soil so that the septic system can be designed and sized for optimal performance according to the specific site conditions on which it is installed.

Some regions need the creation of a designated space for the construction of a replacement mound — it is always a good idea to have a backup plan.

Conclusion: Advantages of an Above Ground Septic System

It is possible to use an above-ground septic system as an alternative to an underground system on sites where the soil characteristics are inappropriate for standard in-ground sewage treatment systems. Septic systems with sand mounds not only conserve groundwater by artificially raising the vertical separation layer, but they also do not discharge directly into a surface water body such as a ditch, stream or river, which reduces the possibility of damaging nearby freshwater systems. As little excavation is required for the building of a sand mound drain field, construction damage is generally kept to an absolute minimum provided all steps are followed with caution.

They are the best option in these situations and should be considered.

Please watch the following video to gain some insight into the building of an above-ground septic system.

Please contact us with any questions you have about our services, prices, or appraising your lot:

How Above Ground Septic Systems Work

Images from EyeEm/EyeEm/Getty Images courtesy of George Mdivanian.

In This Article

  • Waste management technique that is straightforward
  • It’s time to get up and go
  • Sand, gravel, and dirt that has been layered
  • Putting everything together

In order to compensate for poorly absorbing local soils that cannot sustain a normal underground septic system, above-ground septic systems, also known as mound systems, were designed. Many of these systems are located in rural locations where there is no public sewer and where standard septic systems cannot be used due to environmental restrictions.

Simple Waste Management System

Septic systems are comprised of two key components that must work together. The first is a septic tank, which is constructed of waterproof concrete or fiberglass and is used to collect solid waste known as “sludge.” It combines the local soils to absorb liquid sewage (effluents) through a subterranean system of perforated pipes, which transports the liquids to a predetermined region known as the leach field. According to the Humboldt County Department of Health and Human Services, not all soil and site conditions are suitable for typical septic systems.

According to the Ohio State University Extension, mound systems are suited for soils having a limiting layer that is 12 to 36 inches below the surface of the soil.

The septic system, the pump chamber and pump, and the mound with its replacement area are the components of the system.

The design may have two tanks or a single tank with two chambers, depending on the needs of the project.

The solid waste is collected in the first tank, or chamber, while the liquid waste is collected in the second tank, or dosing chamber. It features a built-in sump pump that pumps liquid wastes up to the above-ground absorption mound, which is located in the second chamber.

Layered Sand, Gravel and Soil

The first layer of the mound is a tilled-up layer of dirt from the septic tank location, which is the second layer. Following that, a layer of sand is applied over the freshly tilled soil. Afterwards, a layer of gravel and pipe is carefully positioned and linked to the dosing chamber below it. The gravel is then covered with a construction-grade cloth, and finally, another layer of dirt is added to complete the absorption mound’s construction. The last layer of soil is supplemented in order to encourage grass to grow fast over the mound, which will aid in the prevention of erosion problems.

  1. Mound systems are often long and narrow in shape, and they must be constructed in accordance with the contours of the construction site.
  2. When you flush the toilet or drain the bathtub, the waste is sent directly into the septic tank without being treated.
  3. Once the waste (effluent) has been pumped up and distributed throughout the gravel and sand layers These effluents naturally filter through the soil, where they are recycled back into the environment, where they serve primarily as an excellent fertilizer for the top layer of soil.
  4. According to the Ohio State University Extension, this entails pumping out the dosing and septic tanks every one to five years, as well as cleaning the tanks.

Above Ground Septic Tanks

Septic holding tanks, job trailer waste tanks, job trailer septic tanks, job shack tanks, waste tanks, trailer waste tanks, camper septic tanks, cottage septic tanks, and motorhome septic tanks are all terms used to describe above-ground septic tanks. Septic tanks have not been certified by the Food and Drug Administration to store or carry drinkable water, and thus should not be utilized for this purpose. Their major function is to hold human waste, sewage, and black water in a contained environment.

  • Recreational vehicles, mobile homes, cottages, campsites, job trailers, and job shacks are all examples of structures where septic tanks are the only available option.
  • The majority of the time, they are employed as portable black water tanks.
  • These plastic trash tanks are made from high-density virgin polyethylene resin that has been rotationally manufactured.
  • The use of UV inhibitors during the manufacture process protects the tank from sun damage, allowing it to be used either indoors or outdoors without deterioration.
  • These advantageous characteristics help to ensure that the tanks have a long and effective lifespan.
  • They do not require any particular equipment to carry, and they may be moved into position by two individuals working together.
  • Above-ground septic tanks are available in a variety of sizes, ranging from 250 gallons to 440 gallons in volume capacity.
  • They are opaque and are available in two colors: black and gray.

There are septic tanks on the market that come with a cover or with ports already attached. Any additional connections, ports, or lids that are required for the tanks can be installed. Every septic tank is also protected by a three-year guarantee provided by the manufacturer.


Septic tank and holding tank are two words that are frequently used interchangeably. Despite the fact that they are both sanitation systems, there are significant variances between them. Both types of tanks collect wastewater from the home, but they each manage this effluent in a different manner than the other. If you want to learn more about installing a holding tank, continue reading to discover more about this type of sanitation system. 1. HOLDING TANKS ARE DIFFERENT FROM SEPTIC TANKSA septic tank is a large vessel that collects household wastewater through an inlet pipe, treats the effluent through a bio-action process, and releases the treated water into a drainfield where the water percolates underground.

  1. A holding tank is also used to collect wastewater from the home, which is accessed by an inlet.
  2. Secondly, STORAGE TANKS REQUIRE CONSTANT PUMPING It is recommended by experts that you pump your septic tank every two to three years, depending on factors such as the size of your family or structure.
  3. If you want to utilize the holding tank on a regular basis, it is possible that you will need to clean the unit every 6 to 8 weeks.
  4. The frequency with which the alarm will sound will be determined by a variety of factors, including the size of the tank and the number of people within.
  5. Avoid putting unsuitable objects down the drain, such as food particles and grease, to ensure that your holding tank lasts as long as possible.
  6. 3.
  7. Many factors go into the construction of a functioning and fail-safe holding tank.
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Additionally, you must determine the proper depth for building the subterranean tank as well as complete complex plumbing operations.


Holding tank owners in California are obliged to get the necessary permits from their local Environmental Health Officer and to pay the associated costs before constructing a holding tank.

Once your holding tank has been installed, you must wait for clearance from the local health authorities before you may begin using it.


In addition to permit fees, labor costs, and site conditions will all influence the cost of establishing a holding tank.

Holding tanks, on the other hand, may have a greater maintenance cost than other types of units due to the constant pumping of these units.

Overall, when comparing the upfront costs of building, running, and maintaining a septic tank to the cost of a holding tank, the holding tank comes out on top for property owners looking for the most value for their money.

It can be used in a variety of situations. Do you want to put up a holding tank at your plant to store waste? You can rely on the professionals at Pete’s Outflow Technicians to complete the work correctly. Make a phone call now to talk with one of our knowledgeable professionals.

Five Reasons You Should Consider an Above Ground Septic Tank

If you are considering installing a new septic tank at your residence or place of business, you may have the impression that the tank would be buried underground and out of sight. Many sewage tanks, for example, can be safely kept above ground, for example, beneath a porta cabin, which is not always the case. As specialists in septic tank supply, we at ASAP Septic Tanks are pleased to provide a comprehensive selection of above-ground septic, sewage effluent, and sewage treatment tanks. There are several advantages to purchasing an above-ground sewage tank as opposed to one of its underground equivalents, as listed below.

  • Installing it is simple and inexpensive.
  • The fact that these sewage tanks are above ground means that they incur lower expenditures in terms of soil disposal and excavation.
  • Above-ground sewage tanks are a convenient sewage solution because of all of these factors.
  • This type of tank may also be installed with kid protective lids if you have a particularly curious youngster and are concerned about your tank being unintentionally opened.
  • Versatile Septic tanks, which are located above ground, are perfect for keeping effluent waste for a short period of time.
  • Low-maintenance When not in use, above-ground septic, sewage, and effluent tank systems can be kept in storage for an extended period of time.
  • Because they are so little maintenance, these septic tanks are great for site owners who are often on the go.
  • Above-ground septic tanks have the advantage of being extremely flexible.
  • Various useful accessories, such as a high-level alarm, an air vent system, and additional fill stations, can be added to them as well.
  • Purchase one right away!
  • If you want a fitting service, we can provide all of the essential parts as well as the fitting service.

We even provide free shipping to the whole of the United Kingdom! Simply get in contact with us here at ASAP Septic Tanks by phoning 01623 232240 or sending an email to [email protected] to find out more. We’d be pleased to assist you with getting dressed.

Above-Ground Septic Tanks

In general, above-ground septic tanks (sometimes known as “holding tanks”) are wastewater storage tanks that are elevated above the ground surface. Small, portable polyethylene tanks are available in capacities of 250 and 350 gallons, and they can be used for temporary sewage storage in a variety of settings. Above-ground storage tanks may also be useful in water-front regions where below-ground storage and leaching are forbidden due to environmental regulations.

The Drawbacks of Sewage Holding Tanks

While holding tanks are occasionally used in summer cottages that do not have modern plumbing choices, permanent above-ground tanks are only employed in a very small number of situations (at least in the United States). They have a variety of disadvantages, including:

  • If they are not used in conjunction with a leaching field, they must be emptied on a regular basis, which is an unpleasant (and potentially expensive) operation. The sewage is normally transferred into the above-ground tank through a pump if the above-ground tank is used in combination with a leaching area (rather than gravity.) It is possible that this will cause particles in the sewage to be split up into smaller bits, which will then escape out of the tank along with the effluent. It is possible that the sediments may settle out of the effluent and will become clogged in the pipelines that lead to the leaching fields. Because above-ground tanks are exposed to the weather, they tend to wear out more quickly than their underground counterparts, which are submerged several feet beneath the ground.

Above Ground Fiberglass Septic Tanks and Treatment Plants — Engineered Septic, Package Plants, and Effluent Sewer Solutions

Are you looking for a septic tank that is above ground instead of underground? A large number of our commercial operations need the use of OrencoT-MAX units, particularly where burying a concrete or fiberglass primary tank may be problematic or expensive owing to a high water table and shallow bedrock or other site circumstances. The T-MAX tank is available in a number of different configurations, allowing you greater flexibility and customization depending on your application. These T-MAX units can be discharged either by gravity or by pumping to the next treatment step.

Our team is now working on a project installation in the Virginia highlands, which will take place at a campsite.

Installing the system with just minimum digging necessary was made possible by utilizing the T-MAX and AX-MAX Mobile systems.

Have a question or a project in mind that you would like to discuss?

How Does an Above-Ground Septic System Work?

In an above-ground septic system, also known as a mound system, a mound of specially prepared dirt is constructed on top of the ground to replace the role of the soil leaching area. Septic systems of this sort are used to manage sewage when the place selected does not have adequate deep, well-drained soil to support the installation of a regular system. Above-ground systems are composed of two tanks, a pump, and a mound, among other components, The first tank collects the solids, which must be pumped out at regular intervals.

  1. The liquids are channeled into a secondary tank.
  2. Before reaching the underlying soil, the liquids pass via the sand filtering system.
  3. A standard septic tank system is comprised of two components: a tank and a leaching area.
  4. The process of seeping through the soil filters out any leftover solid sewage and dilutes the ammonia into harmless quantities, allowing it to be released back into the environment.

To treat sewage, it is common practice to cover a vast area of land with dirt. Because the mound utilized in above-ground systems is artificial, it does not need to be as massive as it would be with a below-ground system. ADDITIONAL INFORMATION FROM REFERENCE.COM

The Benefits of a Septic Tank Over a Holding Tank

What type of tank do you have? A septic tank or a holding tank? Which is preferable? Prior to comparing the advantages of a septic tank system and a holding tank, we must first examine each system and how it functions. Tank for storing liquids When a holding tank is used as part of a Holding Tank Septic System, it is a sealed and underground tank that collects wastewater from a residence or business and stores it (HTSS). These systems are commonly seen on smaller estates and in residences that are close to water or shorelines.

Pumping and carrying away the waste typically costs between $100 and $150 per gallon of wastewater, with pricing determined on the amount of wastewater being pumped and hauled away.

Septic Tanks are a type of septic tank that is used to dispose of waste.

According to the number of bathrooms in your home, the size of the septic tank you’ll require is determined by this factor: Despite the fact that septic tanks are supposed to be self-contained, they still require professional pumping out every three to five years in order to maintain their efficiency and effectiveness.

A septic tank system is preferred by the majority of households over a holding tank system.

If you are having difficulty selecting which system is the greatest fit for your property, contact Affordable Pumping Services for assistance.

Above Ground Septic Tank Information Atlanta GA

If something goes wrong with your unit, one of our partners can assist you with it. For all of your above-ground septic tank requirements, contact Atlanta Septic Tank Pros at (404) 998-8812. ” data-image-caption=”Above Ground Septic Tank Information From Atlanta Septic Tank Pros” data-image-caption=”Above Ground Septic Tank Information From Atlanta Septic Tank Pros” data-medium-file=” data-large-file=” data-small-file=” It is possible for individuals to refer to an above-ground septic tank in two different ways, both of which are completely different.

When it comes to Atlanta Septic Tank Pros, our partner technicians handle everything, bringing a wealth of knowledge, skill, and an unmatched level of customer care to the table.

What is an Above Ground Septic Tank?

Essentially, the word refers to alternative energy units that have a reservoir that is visible from the ground and stands on top of the soil. Conventional units feature subterranean reservoirs that are often difficult to spot with the naked eye since they are located deep underground. However, because placing the reservoir on beachfront property is generally against the law and because the costs of excavation might be prohibitive if the property isn’t utilized year-round, cottages and vacation houses are occasionally equipped with them.

It is inaccurate because the mound refers to the point at which the water, or effluent, is expelled, thus it is not a true representation of the reservoir at any point.

This article covers information about actual above-ground septic tanks, which are not underground.

Above Ground Septic Tank Installation

Because no excavation is required, the reservoir may be installed in a relatively short period of time. It is still necessary to get permits for this type of installation and the reservoir must be connected to the home’s plumbing as well as a release place for the effluent. It is possible that the reservoir will not be able to accommodate an appropriate leach field or discharge area in some regions. If this is the case, a certified specialist will need to pump out the whole reservoir on a regular basis to keep it functioning properly.

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Above Ground Septic Tank Pumping and Inspection

The pumping and inspection of traditional residential units should be done every 3-5 years, but if your unit is located in a seasonal or part-time home, it’s a good idea to have it done at the end of each year when you close up shop for the season. Because pumping requirements are often dictated by the amount of use the unit receives as well as the size of the reservoir, there is a significant lot of variation in these figures as well. In order to establish the right pumping schedule for your reservoir, please consult with one of our knowledgeable partner technicians.

A technician should be called out to check on yours before you start using it for the first time each year, especially if you don’t use it very often.

Above Ground Septic Tank Repairs and Emergencies

If something goes wrong with your unit, please contact us immediately.

We’ll make certain that a qualified expert is deployed as soon as feasible so that service may be restored as soon as possible.

Call Atlanta Septic Tank Pros for All Your Above Ground Septic Tank Needs

We can assist you whether you need a new system or tank installed, require regular maintenance and pumping, or are experiencing problems with your unit. Call us right now at (404) 998-8812.

Mound Septic Systems – Shiawassee Conservation District

This type of technology was first established in North Dakota around the 1940s, according to historical records. The “NODAK disposal system,” as it is known, was created in response to the severe environment and changeable site circumstances that exist in the state. There were two septic tanks in this system, and the wastewater was discharged to an above-ground gravel mound that had distribution pipes running along its length and width. The notion is still in use today in areas with very slow or rapid permeable soils, shallow soils over porous rock, or a high water table, to name a few applications.

  1. There are three major components to this sort of system: A septic tank, a pump chamber, and a raised mound drainfield are the three components of a septic system.
  2. In the tank, wastewater is channeled from the house to the bottom, where heavier solids (sludge) settle to the bottom and lighter solids (scum) rise to the top.
  3. Effluent is the term used to describe the waste water that exits the tank.
  4. In addition to a pump, it also has a pump control float as well as a high-water alert float.
  5. The majority of pump chambers are equipped with an alarm float that sounds when there is a problem with the pump or the system.
  6. It is made up of three main components: sand fill, a gravel-filled bed, and a distribution system, which is a network of small-diameter pipes.
  7. In the pipes, the wastewater trickles down through small perforations, past the gravel bed, and into the sand, where treatment takes place.
  8. It is the homeowner’s obligation to keep their septic system in good working order.
  9. Slow or backed-up drains, ponding or foul odors in the yard, luxuriant vegetation over the drainfield, and excessive algae in nearby waterbodies are all signs of a failing septic system.
  10. Mound septic systems are not always the best option, but when space and resources are limited, they may be a good choice for wastewater treatment in the domestic environment.

This material is part of the Upper Maple River Watershed Restoration Project, which is being sponsored by the United States Environmental Protection Agency through the Michigan Department of Environmental Quality’s Nonpoint Source Program and the Michigan Department of Environmental Quality.

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 treated by microbes 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

In certain cases, a decentralized wastewater treatment system is owned by a group of people and is responsible for collecting wastewater from two or more residences or buildings and transporting it to a treatment and dispersal system placed on a suitable location near the dwellings or buildings. Cluster systems are widespread in settings like rural subdivisions, where they may be found in large numbers.

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