Sewerage

Sewerage is the infrastructure that conveys sewage or surface runoff (stormwater, meltwater, rainwater). It encompasses components such as receiving drains, manholes, pumping stations, storm overflows, and screening chambers of the combined sewer or sanitary sewer. Sewerage ends at the entry to a sewage treatment plant or at the point of discharge into the environment. It is the system of pipes, chambers, manholes, etc. that conveys the sewage or storm water.

According to this definition, sewerage and sewage are two different terms. However, at least in American English colloquial usage, both terms are sometimes used interchangeably.[1]

Design aspects

The main part of a sewerage system is made up of large pipes (i.e. the sewers, or "sanitary sewers") that convey the sewage from the point of production to the point of treatment.

Types of sanitary sewer systems include:

Effect on water table

Sewerage systems often reduce the water table in areas, especially in densely populated areas where rainwater (from house roofs) is directly piped into the sewerage system as opposed to being simply allowed to be absorbed by the soil. In certain areas it has resulted in a significant lowering of the water table. In the example of Belgium, a lowering of the water table by 100 meters has been the result.[2][3] The freshwater that is accumulated by the sewerage system is then piped to the sea.

In areas where this is a concern, vacuum sewers may be used instead due to the shallow excavation that is possible for them.

Maintenance and rehabilitation

Severe constraints are applied to sewerage, which may result in premature deterioration. These include root intrusion, joint displacement, cracks and holes formation leading to a significant volume of leakage with an overall risk for the environment and public health. For example, it is estimated that 500 million m3 of contaminated water per year can leak into soil and ground-water in Germany.[4] The rehabilitation and replacement of damaged sewers is very costly. Annual rehabilitation costs for Los Angeles County are about €400 million,[5] and in Germany, these costs are estimated to be €100 million.[6]

Hydrogen sulfide (H2S) is indirectly responsible for biogenic sulfide corrosion and consequently, sewerage need rehabilitation works. Various repairs options are available to Owners over a large range of costs and potential durability. One option is the application of a cementitious material based on calcium aluminate cement, after a cleaning of the corroded structure to remove loose material and contaminants in order to expose a sound, rough and clean substrate. Depending of the concrete condition and contamination, the cleaning can range from simple high pressure jet water cleaning (200 bar) up to real hydro-demolition (2000 bars).

One method to ensure sound concrete is exposed is to verify that the surface pH is superior to 10.

As for any concrete repair, the state-of-the-art rules must be followed. After this cleaning step, the cementitious material is applied to the saturated-surface-dry substrate using either:

Regulations

In many European countries, citizens are obliged to connect their home sanitation to the national sewerage system where possible. This has resulted in large percentages of the population being connected to a sewerage system. For example, the Netherlands have 99% of the population connected to the sewerage system, and 1% has an individual sewage disposal system or treatment system, e.g., septic tank. Others have slightly lower (though still substantial) percentages; e.g., 96% for Germany.

See also

References

  1. "sewerage - definition of sewerage in English from the Oxford dictionary". oxforddictionaries.com.
  2. "Beleid tegen watertekort dringt zich op". deredactie.be.
  3. "Publicaties — Vlaamse Milieumaatschappij" (PDF). vmm.be.
  4. Kaempfer, W., Berndt, M., 2009. Estimation of service life of concrete pipes in sewer networks. Durability of building materials and components, 8, 36-45.
  5. Sydney, R., Esfandi, E., Surapaneni, S., 1996. Control concrete sewer corrosion via the crown spray process. Water Environment Research, 68 (3), 338-347.
  6. Kaempfer, W., Berndt, M., 1998. Polymer modified mortar with high resistance to acid corrosion by biogenic sulphuric acid. In: Proceedings of the IX ICPIC Congress, Bologna, Italy, pp. 681–687
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