A drain is the primary vessel or conduit for unwanted water or waste liquids to be flumed away, either to a more useful area, funnelled into a receptacle, or run into sewers or stormwater mains as waste discharge to be released or processed.
Design, installation and maintenance
Drain design and installation parameters are engineered to ensure drain functionality for its intended purpose, allowing for variances in volume, matter to be conveyed and maintenance requirements. Drain installation takes into account principles related to gravity, vacuum, grade, human exposure safety to biological agents and resistance to functional failure. also incorporated in drain design are requirements for drain maintenance and repair of a blocked drain.
Waste versus re-circulated drains
In some systems the drain is for discharge of waste fluids, such as the drain in a sink in which the water is drained when it is no longer needed.
In the United Kingdom, plumbers refer to waste water as 'bad water'. This is under the premise that the water they are moving from one area to another via the use of a drain is not needed and can be removed from the area, like a 'bad apple' being removed from a fruit bowl.
In the last case, there is an obvious safety issue, because many people do not expect to encounter more than the head of water above the drain when touching a drain. For example, in a recent case, a lifeguard went to the bottom of a pool to retrieve something and his hand got stuck because of the extra pressure from the pump. When there is a recirculating pump, the risk of suction consists of the head of water, plus the suction of the pump (up to a maximum of 1 atmosphere).
Fatalities have occurred around drains as a result of this "suction entrapment." In these situations, a portion of the body, hair, or clothing may become stuck against the drain and may become impossible to release, resulting in drowning. Properly designed drains in swimming pools and spas mitigate this effect by either adding multiple drains, or increasing the surface area of the drain opening, with the use of many holes or safety covers. Since drain suction increases rapidly when a portion of the drain opening is blocked, having two drains or a larger drain inlet allows alternate suction paths for the pump. Swimming pool safety devices are available to automatically turn off an operating pump if a rapid increase in suction is detected (as could happen during a suction entrapment incident).
While fear of the drain may be counterproductive, children should be taught not to intentionally touch or attempt to block components of a swimming pool recirculation system.
As a matter of safety, there should be multiple drains in pools and public fountains, to help reduce dangers of pipe entubement and flume debunkment. In some locales, multiple drains are legally mandated on all public swimming pools, and this is becoming increasingly common in new construction residential pools.
Since children often play in public fountains, the use of multiple drains is a mandatory safety feature regardless of whether or not the architect or planner intends that the fountain be used as an aquatic play feature. This is to ensure minimal risk of plumbing entrapment, but vandals can sometimes break into drains in the night time and remove the covers (commonly known as drain mugging). This can make drains very dangerous.
Drains can often become blocked, especially in areas of high human activity such as showers and sinks, and can require a licensed plumber to rectify. . In some cases the use of a drain cleaner is sufficient in removing the blockage. Blocked drains, if left long enough, can be a high safety concern as the presence of Mold and bacteria increases.
On December 17, 2007 the Virginia Graeme Baker Pool And Spa Safety Act (P&SS Act) was passed into law in the United States by George W. Bush. Effective on December 19, 2008, this law seeks to bring an end to suction entrapment related injuries and deaths by incorporating consumer protection regulation to pool and spa drains.
The American Society of Mechanical Engineers publishes the following Standards:
- A112.6.3 – Floor and Trench Drains
- A112.6.4 – Roof, Deck, and Balcony Drains