Living Machine Explained

A Living Machine[1] is a form of ecological sewage treatment based on fixed-film ecology.[2] [3] [4]

The Living Machine system was commercialized and is marketed by Living Machine Systems, L3C, a corporation based in Charlottesville, Virginia, United States.[5]

Examples

Examples of Living Machines are mechanical composters for industrial kitchens, effective microorganisms as fertilizer for agricultural purposes, and Integrated Biotectural systems in landscaping and architecture like Earthships or the IBTS Greenhouse.

Components like tomato plants (for more water purification) and fish (for food) have been part of the living, ecosystem-like designs. The theory does not limit the size of the system, or the amount of species. One design optimum is a natural ecosystem which is designed for a special purpose like a sewage treating wetland in a suitable ecosystem for the locality. Another optimum is an economically viable system returning profit for the investor. The practice of permaculture is one example for a compromise between the two optimum design points.

The scale of Living Machine systems ranges from the individual building to community-scale public works. Some of the earliest Living Machines were used to treat domestic wastewater in small, ecologically-conscious villages, such as Findhorn Community in Scotland.[6] The latest-generation Tidal Flow Wetland Living Machines are being used in major urban office buildings, military bases, housing developments, resorts and institutional campuses.[7]

Living Machine System Process

See also

External links

Notes and References

  1. Book: Wastewater Technology Fact Sheet - The Living Machine ® . United States Environmental Protection Agency . Municipal Technology Branch . October 2002 .
  2. "Factsheet: Tidal Wetland Living Machine System -- Description and Scientific Basis." Web site: Archived copy . dead . https://web.archive.org/web/20110929200006/http://www.livingmachines.com/images/uploads/resources/tidal_wetland_living_machine_technology_description.pdf . 2011-09-29 . 2011-08-18. . Retrieved 2011-8-18.
  3. Web site: Importance of Wetlands | Biological Indicators of Watershed Health | US EPA . 2011-08-18 . https://web.archive.org/web/20111110155018/http://www.epa.gov/bioiweb1/aquatic/importance.html . 2011-11-10 . dead .
  4. Water and Waste water Plant Directory. NEB Solar Aquatic System
  5. Web site: Martin . Olivia . 2012-08-24 . A Look at Living Machine Systems . 2022-09-15 . Dwell.
  6. http://www.ecovillagefindhorn.com/biological/index.php Ecovillage Findhorn: Biological Waste Water Treatment
  7. McNair, Dave. "The Tao of Poo: Can Worrell's Green Sewage System Save Water and Planet?" The Hook. June 11, 2009. Retrieved 2011-9-24.