Cost Of Septic Tank Pumping Fort Meade

Septic tanks are a great solution for remote or urban property owners who either cannot or do not want to be part of a municipal sewage system. A septic system is connected directly to the pipes of the residence or business and serves as an immediate filter and containment unit for water-bound domestic waste. There are certain risks related to the installation and maintenance of a septic tank; such risks have resulted in rules that need to be followed to protect the environment and property especially with the regular removal of the contents of the tank by a vacuum truck.

Frequency

Depending on the size of the unit and the household, a tank must be emptied every three to five years. This is necessary not only because of space limitations but also because the tank needs to be inspected with some regularity to check for cracks, leaks and blockages. Other reasons are as follows:

    • Emergencies – Pumping can also become necessary in cases of emergency. Sewage backup and drain clogging may occur due to blockages which need to be cleared immediately to keep the problem from escalating. Flooding can cause similar problems.

 

    • Precautionary Measure – Emptying the primary container can also be a precautionary measure when there are many household members; parties with many guests; or other circumstances where many people would be using the toilets.

 

    • Odors – Sometimes tanks are suctioned due to permeating sewer odors escaping from the system as that could be a symptom of leaking gas needing to be repaired separately. Evidence of septic failure must be attended to immediately by a professional repair company.

 

  • Selling Property – It is also customary to pump out the septic system before selling property.

Septic tanks serve a very useful purpose for many households. As long as properly maintained by regular pumping, cleaning and inspections, they should correctly function under all conditions and for a long service life. Hopefully this information will be helpful in knowing how a septic tank is cleaned!

Follow these safety tips given below when inspecting your septic system:

1. Septic tank lid
Make sure that the access port of your tank is covered with a solid lid. Make sure that the lid is strong enough. Kids should not be able to open it. If you have no idea as to how to install the system, you can call a professional for help. The company will be more than happy to help with the inspection.

2. The tank opening
You should never lean over the septic tank opening. The reason is that the gasses that come out of the tank may knock you out. You may also fall in the tank, which may prove fatal.

3. Driving Over The septic system
Driving heavy machine on the ground where the tank system is buried is not a good idea. Actually, you may have to bear heavy costs in order to get the broken pipes repaired. So, make sure you don’t drive heavy equipment or machinery on the ground where you buried the tank system.

Contact Info:
Name: Billy Fowler
Email: info@asapadvancedseptic.com
Organization: ASAP Advanced Septic & Drainage, Inc.
Address: 5011 E Busch Blvd, Tampa, FL 33617
Phone: (813) 986-6070

5 Tips to Keep Your Septic System Running Clean

Septic Inspection Service

Septic tank systems become clogged with roots in the leach lines, leach field, drain field or seepage field, causing backup of wastewater into the house. The inexpensive fix is to use copper sulfate through an installed cleanout or septic field pump.

Septic tank systems

Septic tank systems do not last forever and replacing one is a very expensive proposition. If your house is connected to the city sewer system, then you do not have a septic tank. A septic tank can be described as your very own little sewage treatment plant. There are three basic elements of a septic system:

  1. The septic line that carries sewage and waste water from your house to the tank. There is usually a cleanout plug at the house-end it so that you can run a snake down it to remove obstructions.
  2. The septic tank itself where sewage is held while undergoing decomposition. This is underground, probably under a grassy area, and has a cover that is usually buried in residential installations.
  3. The leach field, also referred to as a drain field or seepage field. This is a branching network of underground porous trenches, pipes or something similar that carries the clear liquid from the septic tank throughout adjacent soil where it is absorbed.

A clogged leach field

Eventually leach fields become clogged because the roots from trees and other vegetation are attracted to the nutrient-rich effluent. The roots grow through the pores intended to drain the liquid, seepage gradually slows or stops.

If sufficient pressure cannot be released through the pores of the leach field, the entire septic system cannot accept any more waste water and it backs up in the house, usually at a low point such as a shower or tub drain. If it gets that bad, you may have to replace the entire leach field. In many localities, that will require a building permit and meeting current building codes, which means replacing the entire septic system, which is expensive, etc.

Kill roots with copper sulfate

Since this is obviously something to avoid, you can often extend the life of the old system by taking action when sewage flow has slowed, but not completely stopped. Copper sulfate kills roots. If it can be placed into the system so that it will flow through the leach field, the roots will die (but not the plants) and waste water will begin to flow more freely again after a few weeks. In many systems, this isn’t as easy as it sounds, because copper sulfate is so heavy that it will settle to the bottom of the septic tank unless inserted into the leach line leading from the tank. If you have a cleanout or other access there, you’re all set, but many residential systems do not. I prefer the crystal form over the powder because it's easier to handle, cheaper and dissolves more slowly, .

Install a leach line cleanout

If necessary, it is not very expensive to have a cleanout installed in the leach line expressly for the purpose of adding copper sulfate periodically. If that still doesn’t quite work, or if you want to be sure the stuff is going to flow more quickly, you can pump it through the leach field.

It is possible to install a pump on the leach line cleanout between the septic tank and the leach field. It can be buried below ground level or installed above ground and concealed with landscape bushes. The pump turns on and off automatically to maintain a slight pressure on the waste water, pushing it through the pores of the seepage field. Adding copper sulfate at intervals through a cleanout at this point is effective to drive the chemical towards the offending roots.

Killing the roots may extend the life of the septic system a few years, but it will ultimately need to be replaced with a completely modern one—unless you can successfully lobby for a neighborhood hook-up, of course.

 

Septic Pumping - Do You Want to Save Money?

Best Septic Tank

Understanding septic systems capabilities and limits is needed to ensure water quality. A septic system is a type of On-Site Sewage Facility and is a self-contained, underground waste-water treatment system. By using natural processes to treat the waste-water on-site, septic systems do not require the installation of miles of sewer lines, making them less disruptive to the environment. A septic system consists of a septic tank, a distribution system and a soil absorption system, also called a drain field. The septic tank is a watertight box, sometimes made out of concrete or fiberglass, with an inlet and outlet pipe. The septic tank treats the waste-water naturally by holding it in the tank long enough for solids and liquids to separate. The waste-water forms three layers inside the tank. Solids lighter than water float to the top forming a layer of scum.Solids heavier than water settle at the bottom of the tank forming a layer of sludge. This leaves a middle layer of partially clarified waste-water. The layers of sludge and scum remain in the septic tank where bacteria found naturally in the waste-water work to break the solids down. The sludge and scum that cannot be broken down are retained in the tank until the tank is pumped. The layer of liquid flows from the septic tank to the drain field. A drain a series of trenches lined with gravel or sand and below the ground. The drain field treats the waste-water by allowing it to slowly trickle from the pipes out into the gravel and down through the soil. The remaining impurities are trapped and disposed of in the soil. The excess water is eliminated through percolation into the soil, and eventually returning to the ground water, through evaporation, and by uptake through plants and transpiration.The Center for Watershed Protection notes that septic systems can be effective methods of water treatment, however failures are common in many areas. Even properly functioning septic systems can leak and are not designed to effectively deal with most of the phosphorus and nitrogen load found in the water it treats. Pathogenic fecal bacteria are also a concern. The primary concern for a municipality is proper maintenance of septic systems, and in some cases the total load of partially treated pollutants that can impact local drinking water and wildlife. A solid understanding of septic systems capabilities and limits, and a good government plan is needed to ensure water quality.

Tips for Maintaining Your Septic Tank

Sewage Tank Pumping Service

An aerobic treatment system or ATS, often called (incorrectly) an aerobic septic system, is a small scale sewage treatment system similar to a septic tank system, but which uses an aerobic process for digestion rather than just the anaerobic process used in septic systems. These systems are commonly found in rural areas where public sewers are not available, and may be used for a single residence or for a small group of homes.

Unlike the traditional septic system, the aerobic treatment system produces a high quality secondary effluent, which can be sterilized and used for surface irrigation. This allows much greater flexibility in the placement of the leach field, as well as cutting the required size of the leach field by as much as half.[1]

The ATS process generally consists of the following phases:[2]

The disinfecting stage is optional, and is used where a sterile effluent is required, such as cases where the effluent is distributed above ground. The disinfectant typically used is tablets of calcium hypochlorite, which are specially made for waste treatment systems.[3] The tablets are intended to break down quickly in sunlight. Stabilized forms of chlorine persist after the effluent is dispersed, and can kill plants in the leach field.

Since the ATS contains a living ecosystem of microbes to digest the waste products in the water, excessive amounts of items such as bleach or antibiotics can damage the ATS environment and reduce treatment effectiveness. Non-digestible items should also be avoided, as they will build up in the system and require more frequent sludge removal.[4]

Small scale aerobic systems generally use one of two designs, fixed-film systems, or continuous flow, suspended growth aerobic systems (CFSGAS). The pre-treatment and effluent handling are similar for both types of systems, and the difference lies in the aeration stage.[1]

Fixed film systems use a porous medium which provides a bed to support the biomass film that digests the waste material in the wastewater. Designs for fixed film systems vary widely, but fall into two basic categories (though some systems may combine both methods). The first is a system where the media is moved relative to the wastewater, alternately immersing the film and exposing it to air, while the second uses a stationary media, and varies the wastewater flow so the film is alternately submerged and exposed to air. In both cases, the biomass must be exposed to both wastewater and air for the aerobic digestion to occur. The film itself may be made of any suitable porous material, such as formed plastic or peat moss. Simple systems use stationary media, and rely on intermittent, gravity driven wastewater flow to provide periodic exposure to air and wastewater. A common moving media system is the rotating biological contactor (RBC), which uses disks rotating slowly on a horizontal shaft. Approximately 40 percent of the disks are submerged at any given time, and the shaft rotates at a rate of one or two revolutions per minute.[1]

CFSGAS systems, as the name implies, are designed to handle continuous flow, and do not provide a bed for a bacterial film, relying rather on bacteria suspended in the wastewater. The suspension and aeration are typically provided by an air pump, which pumps air through the aeration chamber, providing a constant stirring of the wastewater in addition to the oxygenation. A medium to promote fixed film bacterial growth may be added to some systems designed to handle higher than normal levels of biomass in the wastewater.[1]

Another increasingly common use of aerobic treatment is for the remediation of failing or failed anaerobic septic systems, by retrofitting an existing system with an aerobic feature. This class of product, known as aerobic remediation, is designed to remediate biologically failed and failing anaerobic distribution systems by significantly reducing the biochemical oxygen demand (BOD5) and total suspended solids (TSS) of the effluent. The reduction of the BOD5 and TSS reverses the developed bio-mat. Further, effluent with high dissolved oxygen and aerobic bacteria flow to the distribution component and digest the bio-mat.Doing so on single tank systems where solids do not have anywhere to settle, or there is no a clarifying area can do damage to the field lines as the solid matter is stirred up in the tank.

Composting toilets are designed to treat only toilet waste, rather than general residential waste water, and are typically used with water-free toilets rather than the flush toilets associated with the above types of aerobic treatment systems. These systems treat the waste as a moist solid, rather than in liquid suspension, and therefore separate urine from feces during treatment to maintain the correct moisture content in the system. An example of a composting toilet is the clivus multrum (Latin for 'inclined chamber'), which consists of an inclined chamber that separates urine and feces and a fan to provide positive ventilation and prevent odors from escaping through the toilet. Within the chamber, the urine and feces are independently broken down not only by aerobic bacteria, but also by fungi, arthropods, and earthworms. Treatment times are very long, with a minimum time between removals of solid waste of a year; during treatment the volume of the solid waste is decreased by 90 percent, with most being converted into water vapor and carbon dioxide. Pathogens are eliminated from the waste by the long durations in inhospitable conditions in the treatment chamber.[5]

The aeration stage and the disinfecting stage are the primary differences from a traditional septic system; in fact, an aerobic treatment system can be used as a secondary treatment for septic tank effluent.[1] These stages increase the initial cost of the aerobic system, and also the maintenance requirements over the passive septic system. Unlike many other biofilters, aerobic treatment systems require a constant supply of electricity to drive the air pump increasing overall system costs. The disinfectant tablets must be periodically replaced, as well as the electrical components (air compressor) and mechanical components (air diffusers). On the positive side, an aerobic system produces a higher quality effluent than a septic tank, and thus the leach field can be smaller than that of a conventional septic system, and the output can be discharged in areas too environmentally sensitive for septic system output. Some aerobic systems recycle the effluent through a sprinkler system, using it to water the lawn where regulations approve.

Since the effluent from an ATS is often discharged onto the surface of the leach field, the quality is very important. A typical ATS will, when operating correctly, produce an effluent with less than 30 mg/liter BOD5, 25 mg/L TSS, and 10,000 cfu/mL fecal coliform bacteria. This is clean enough that it cannot support a biomat or "slime" layer like a septic tank.[6]

ATS effluent is relatively odorless; a properly operating system will produce effluent that smells musty, but not like sewage. Aerobic treatment is so effective at reducing odors, that it is the preferred method for reducing odor from manure produced by farms.[7][8][9]

Septic Tank Installation, Repair and Replacement

Septic Company

An aerobic treatment system or ATS, often called (incorrectly) an aerobic septic system, is a small scale sewage treatment system similar to a septic tank system, but which uses an aerobic process for digestion rather than just the anaerobic process used in septic systems. These systems are commonly found in rural areas where public sewers are not available, and may be used for a single residence or for a small group of homes.

Unlike the traditional septic system, the aerobic treatment system produces a high quality secondary effluent, which can be sterilized and used for surface irrigation. This allows much greater flexibility in the placement of the leach field, as well as cutting the required size of the leach field by as much as half.[1]

The ATS process generally consists of the following phases:[2]

The disinfecting stage is optional, and is used where a sterile effluent is required, such as cases where the effluent is distributed above ground. The disinfectant typically used is tablets of calcium hypochlorite, which are specially made for waste treatment systems.[3] The tablets are intended to break down quickly in sunlight. Stabilized forms of chlorine persist after the effluent is dispersed, and can kill plants in the leach field.

Since the ATS contains a living ecosystem of microbes to digest the waste products in the water, excessive amounts of items such as bleach or antibiotics can damage the ATS environment and reduce treatment effectiveness. Non-digestible items should also be avoided, as they will build up in the system and require more frequent sludge removal.[4]

Small scale aerobic systems generally use one of two designs, fixed-film systems, or continuous flow, suspended growth aerobic systems (CFSGAS). The pre-treatment and effluent handling are similar for both types of systems, and the difference lies in the aeration stage.[1]

Fixed film systems use a porous medium which provides a bed to support the biomass film that digests the waste material in the wastewater. Designs for fixed film systems vary widely, but fall into two basic categories (though some systems may combine both methods). The first is a system where the media is moved relative to the wastewater, alternately immersing the film and exposing it to air, while the second uses a stationary media, and varies the wastewater flow so the film is alternately submerged and exposed to air. In both cases, the biomass must be exposed to both wastewater and air for the aerobic digestion to occur. The film itself may be made of any suitable porous material, such as formed plastic or peat moss. Simple systems use stationary media, and rely on intermittent, gravity driven wastewater flow to provide periodic exposure to air and wastewater. A common moving media system is the rotating biological contactor (RBC), which uses disks rotating slowly on a horizontal shaft. Approximately 40 percent of the disks are submerged at any given time, and the shaft rotates at a rate of one or two revolutions per minute.[1]

CFSGAS systems, as the name implies, are designed to handle continuous flow, and do not provide a bed for a bacterial film, relying rather on bacteria suspended in the wastewater. The suspension and aeration are typically provided by an air pump, which pumps air through the aeration chamber, providing a constant stirring of the wastewater in addition to the oxygenation. A medium to promote fixed film bacterial growth may be added to some systems designed to handle higher than normal levels of biomass in the wastewater.[1]

Another increasingly common use of aerobic treatment is for the remediation of failing or failed anaerobic septic systems, by retrofitting an existing system with an aerobic feature. This class of product, known as aerobic remediation, is designed to remediate biologically failed and failing anaerobic distribution systems by significantly reducing the biochemical oxygen demand (BOD5) and total suspended solids (TSS) of the effluent. The reduction of the BOD5 and TSS reverses the developed bio-mat. Further, effluent with high dissolved oxygen and aerobic bacteria flow to the distribution component and digest the bio-mat.Doing so on single tank systems where solids do not have anywhere to settle, or there is no a clarifying area can do damage to the field lines as the solid matter is stirred up in the tank.

Composting toilets are designed to treat only toilet waste, rather than general residential waste water, and are typically used with water-free toilets rather than the flush toilets associated with the above types of aerobic treatment systems. These systems treat the waste as a moist solid, rather than in liquid suspension, and therefore separate urine from feces during treatment to maintain the correct moisture content in the system. An example of a composting toilet is the clivus multrum (Latin for 'inclined chamber'), which consists of an inclined chamber that separates urine and feces and a fan to provide positive ventilation and prevent odors from escaping through the toilet. Within the chamber, the urine and feces are independently broken down not only by aerobic bacteria, but also by fungi, arthropods, and earthworms. Treatment times are very long, with a minimum time between removals of solid waste of a year; during treatment the volume of the solid waste is decreased by 90 percent, with most being converted into water vapor and carbon dioxide. Pathogens are eliminated from the waste by the long durations in inhospitable conditions in the treatment chamber.[5]

The aeration stage and the disinfecting stage are the primary differences from a traditional septic system; in fact, an aerobic treatment system can be used as a secondary treatment for septic tank effluent.[1] These stages increase the initial cost of the aerobic system, and also the maintenance requirements over the passive septic system. Unlike many other biofilters, aerobic treatment systems require a constant supply of electricity to drive the air pump increasing overall system costs. The disinfectant tablets must be periodically replaced, as well as the electrical components (air compressor) and mechanical components (air diffusers). On the positive side, an aerobic system produces a higher quality effluent than a septic tank, and thus the leach field can be smaller than that of a conventional septic system, and the output can be discharged in areas too environmentally sensitive for septic system output. Some aerobic systems recycle the effluent through a sprinkler system, using it to water the lawn where regulations approve.

Since the effluent from an ATS is often discharged onto the surface of the leach field, the quality is very important. A typical ATS will, when operating correctly, produce an effluent with less than 30 mg/liter BOD5, 25 mg/L TSS, and 10,000 cfu/mL fecal coliform bacteria. This is clean enough that it cannot support a biomat or "slime" layer like a septic tank.[6]

ATS effluent is relatively odorless; a properly operating system will produce effluent that smells musty, but not like sewage. Aerobic treatment is so effective at reducing odors, that it is the preferred method for reducing odor from manure produced by farms.[7][8][9]

So, these are a few precautions that you may want to take if you are going to work on a septic tank system. This is important should you want to keep you and your family safe around the system. When in doubt, it’s a good idea to call a local septic service in Fort Meade . Hopefully, these tips will help.

SEPTIC TANK CARE | WHO TO CALL FOR SERVICE IN Fort Meade

Septic tanks may not be the most pleasurable thing to care for, but it's important that you keep your septic tank clean. If you don't, chances are it will become backed up. This can cause over flow in not only your toilet, but sometimes bathtub. There are special tools and products that can help keep your septic system clean. There are also chemicals that can help the bacteria grow within the tank so your waste dissolves faster.

There are many items you should not put down your drain. Water, waste and some bio-degradable items are acceptable. Things such as feminine products, soil, grease and insecticides are just a few of what shouldn't go down the drain. Should any of these items go down into your drain, you risk backing up you septic system.

The health department may recommend that your tank be cleaned manually, especially if there are many residents in the household. Cleaning inside the tank allows for the sides and bottom to be scrubbed and washed. A contractor can be hired to do this type of dirty work. However, an individual can do it alone if they wished. Using a high pressured hose, the insides of the tank can be cleaned. This is the best time to check for any cracks or leaks.

Caring for a septic tank is not hard, but necessary. There are large fines involved should you not care for your tank properly. Health departments see a damaged septic system as a major health hazard not only to you, but to those in your neighborhood.


Polk County Sewage Tank Pumping

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