Sewer mining explained

Sewer mining (or sewage mining) is a concept where municipal wastewater (sewage) is pumped from a trunk sewer and treated on-site to accommodate a range of local, nonpotable water needs.[1] It is a strategy for combating water scarcity. It combines decentralized wastewater management and water reclamation. Since 2012, it is used as a tool for improving water management and promoting reuse of water in Australia.[2]

Design

A sewer mining scheme typically consists of:[3]

Advantages

One of the advantages of sewer mining is the decrease in transportation costs, since sewage can be treated locally. Another benefit derives from the fact that no further capital costs for sewer infrastructure are needed, because a treatment scheme can be directly linked to the already existing pipeline system. With the combination of new, emerging technologies, such as the membrane bioreactor (MBR), further reduction of operating costs became possible, making the average cost of retrieved water comparable to potable water costs.

Examples

Australia

Most of sewer mining cases are realised in Australia and involve residential non-drinking uses. More specifically, in Sydney Olympic Park, a large scale sewer mining unit has been installed for using recycled water for irrigational purposes. The retrieved water is being produced in such quantities that substitutes more than 50% of the potable water that would be sustaining green sites in the Sydney Olympic Park and the Newington Estate. Another realisation of sewer mining takes place in Pennant Hills Golf Club, where the recycling scheme produced up to 100 million litres of reclaimed water that is used for irrigating the golf course. In this case, the nutrients from the sewage are used as fertilizer on the golf course rather than being removed in a sewage treatment plant.[5]

Greece

In Greece, an example that applies sewer mining as a decentralised wastewater treatment method is the DESSIN Athen's pilot plant, which is implemented under the European Union Seventh Framework Programme.[6] The Athens demonstration site pumps municipal sewage directly from the central sewage network and treats it by the use of a membrane bioreactor, while a reverse osmosis unit assures that the water quality lies within the legislation limits. The treated effluent is used to irrigate a nearby area of 50 square meters.

See also

Notes and References

  1. Web site: Sewer Mining: An Unconventional Solution To Water Scarcity. Kevin Westerling . November 16, 2015 . Water Online . 2017-10-30.
  2. Web site: "Sewer Mining" – Efficient Water Recycling Coming to a Community Near You. Sandra Postel . January 16, 2012 . National Geographic. 2017-11-02.
  3. Makropoulos. C.. Rozos. E.. Tsoukalas. I.. Plevri. A.. Karakatsanis. G.. Karagiannidis. L.. Makri. E.. Lioumis. C.. Noutsopoulos. C.. Sewer-mining: A water reuse option supporting circular economy, public service provision and entrepreneurship. Journal of Environmental Management. 216. 285–298. 10.1016/j.jenvman.2017.07.026. 28728973. 2018.
  4. Web site: Sewer Mining: How to set up a sewer mining scheme. 2013 . Sydney Water . 2017-11-02.
  5. Book: World Water Assessment Programme. Wastewater : the untapped resource : the United Nations world water development report 2017. UNESCO. 2017. 9789231002014. Paris. 1001536797.
  6. Web site: Athens(Greece) Demo site. . 2014 . DESSIN (Demonstrate Ecosystem Services Enabling Innovation in the Water Sector . . 2017-10-30 .