Product Code Database
Onsite sewage facilities ( OSSF), also called septic systems, are wastewater systems designed to treat and dispose of effluent on the same property that produces the wastewater, in areas not served by public sewage infrastructure.
A septic tank and drainfield combination is a fairly common type of on-site sewage facility in the Western world. OSSFs account for approximately 25% of all domestic wastewater treatment in the US. Onsite sewage facilities may also be based on small-scale Aerobic organism and biofilter units, membrane bioreactors or sequencing batch reactors. These can be thought of as scaled down versions of municipal sewage treatment plants, and are also known as "package plants."
In virtually all engineered onsite sewage facilities, recycling and decomposition by natural organisms is still the primary mechanism of sewage disposal. Giving the organisms the time they need to decompose wastes is accomplished by establishing minimum sewage retention and settling times, and minimum liquid flow distances between sewage disposal sites and surface water or .
Although the solids collected by onsite sewage facilities can potentially be used as compost to build topsoil, these solids are often incompletely decomposed due to either a lack of onsite storage space to wait for decomposition (municipal facilities), or because the solids are being stacked in a layered structure of new waste solids on top of previously decomposed solids (septic tanks and outhouses). Due to the incomplete state of decomposition, when removed from an onsite sewage facility, these solids are typically referred to as sludge rather than compost, and have powerful offensive odors arising from the microorganisms still consuming nutrients in the sludge. Engineered facilities that use water suspension to transport solids (private septic systems and municipal facilities) typically form a floating layer in their primary settling tank, consisting of low-density liquids such as oils, buoyant solids, and soap foam. This is referred to as scum and is slowly decomposed by microorganisms, eventually falling to the bottom of the settling tank as part of the sludge. When private septic tanks are emptied of solids, the tank is typically vacuumed empty and the incompletely digested scum is added to the incompletely digested sludge, further adding to its aroma and bioactivity.
If left completely undisturbed and exposed to the open air through a vent, the sludge and scum in a settling tank will eventually be turned completely into low-odor compost. By building two tanks side by side, and diverting sewage between them, one tank can be allowed to rest while the other is in use, and the resting tank can be safely and easily cleaned out by hand before it is used again. This has been proposed as a solution for onsite sewage facilities in subsistence agriculture economies where hand labor is the most abundant.
Although human body waste is no different from the waste of any other animal, municipal facilities may be required to bury the collected solids in landfills, due to the risk of toxic contaminants placed into the shared communal sewage system, by humans unaware of the harm they are causing. Municipal facilities may also collect runoff from roadways, which contains traces of all the various chemicals used in vehicles such as brake fluid and engine oil, and those used in melting ice and snow. Private septic systems typically do not experience these issues, as the homeowner is directly aware that they must not pour toxic chemicals down the drain.
Most of the alternative treatment technologies applied today treat wastes after they exit the septic tank; the tank retains settleable solids, grease, and oils and provides an environment for partial digestion of settled organic wastes. Post-tank treatment can include aerobic (with oxygen) or anaerobic (with no or low oxygen) biological treatment in suspended or fixed-film reactors, physical/chemical treatment, soil infiltration, fixed-media filtration, and/or disinfection. The application and sizing of treatment units based on these technologies are defined by performance requirements, wastewater characteristics, and site conditions.
| Prince Edward Island | Department of Technology and Environment | Environmental Protection — Act Sewage Disposal Regulation |
| Newfoundland and Labrador | Department of Health | Public Health Act — Sanitation Regulation |
| Nova Scotia | Department of the Environment | Environment Act — On-site Sewage Disposal Regulation |
| New Brunswick | Department of Health and Community Services | Health Act — Regulation 88-200 |
| Quebec | Department of Environment | Environmental Quality Act — Q-2, r. 22 - Regulation Respecting Wastewater Disposal Systems for Isolated Dwellings |
| Ontario | Ministry of Municipal Affairs and Housing | Ontario Building Code Part 8 |
| Manitoba | Department of the Environment | Environment Act — Private Sewage Disposal Systems and Privies Regulation |
| Saskatchewan | Department of Health | Public Health Act — Plumbing and Drainage Regulation |
| Alberta | Ministry of Labour | Safety Codes Act — Alberta Private Sewage Systems Standards of Practice |
| British Columbia | Ministry of Health Services | Health Act — Sewerage System Regulation |
| North West Territories | Department of Health and Social Services | Public Health Act — General Sanitation Regulations |
| Yukon | Department of Health | Public Health and Safety Act — Sewage Disposal System Regulations |
Although some onsite wastewater management programs have functioned successfully in the past, problems persist. Most current onsite regulatory programs focus on permitting and installation.
Few programs address onsite system operation and maintenance, resulting in failures that lead to unnecessary costs and risks to public health and water resources. Moreover, the lack of coordination among agencies that oversee land use planning, zoning, development, water resource protection, public health initiatives, and onsite systems causes problems that could be prevented through a more cooperative approach. Effective management of onsite systems requires rigorous planning, design, installation, operation, maintenance, monitoring, and controls.
In 2022, trials were underway on Cape Cod, Massachusetts of septic systems that reduce nitrogen pollution using wood chips and limestone.
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