Vermifilter toilet explained

Vermifilter toilet, also known as a primary vermifilter, vermidigester toilet, tiger toilet[1] [2] or tiger worm toilet,[3] is an on-site sanitation system in which human excreta are delivered from a toilet (usually by flushing) onto a medium containing a worm-based ecosystem. Faecal solids are trapped on the surface of the vermifilter where digestion takes place.[2] Liquids typically flow through drainage media, before the effluent is infiltrated into the soil.[2]

Description

A vermifilter toilet contains composting worms such as Eisenia fetida that digest human faeces, thus reducing the accumulation of solids in the system and reducing the need for frequent emptying, in comparison with pit latrines. Further, worm-based digestion is virtually complete and produces vermicompost, so emptying does not involve handling of sludge or require a specialist service. This is a key benefit to users, as is the associated lack of smells.

In field trials in rural India, chemical oxygen demand (COD) and faecal indicators were reduced by 60% and 99% respectively in the effluent.

A worm colony can live inside the vermifilter indefinitely as long as the correct environmental conditions are maintained. Worms need air, food (human faeces) and added (flush) water. An aerobic environment must be provided (e.g. ventilation), and the liquid effluent must be able to drain away. It is important to site the vermifilter correctly so that any risk of flooding is avoided.

Maintenance consists of occasionally removing the accumulated vermicompost: it is estimated that vermicompost removal will be required every 6–8 years, about one-half to one-third of the fill rate for an equivalent size of pit latrine with the same number of users.[4] Emptying latrines can be expensive and often comes with smell and contamination issues: in long-term refugee camps vermifilter toilets reduce the need to replace filled pit latrines and are more cost-effective.[5]

A vermifilter toilet provides primary treatment of human excreta. Providing they are used correctly and maintenance is carried out safely, they offer an affordable route towards safely managed sanitation, the new ambition for global sanitation,[6] for all.

Examples

History

Anna Edey constructed a vermicomposting flush toilet in 1995, called the Solviva Biocarbon filter system. This was later adapted by Wendy Howard.[20] Dean Cameron in Australia developed the "dowmus" vermifilter toilet in the mid 1990s which morphed into the biolytyx system. Colin Bell from New Zealand began marketing his "wormorator" in the late 1990s, a twin-chamber vermifilter toilet.[21]

Later, attention began to focus on applications in the developing world in 2009-2012 through the Sanitation Ventures project at the London School of Hygiene and Tropical Medicine (LSHTM) funded by a grant from the Bill & Melinda Gates Foundation. This project had the goal of finding solutions to the problem of pit latrine filling: vermifilter toilets appeared to be an attractive option. Colin Bell provided the design[22] and technical development was led by Claire Furlong in collaboration with Professor Michael Templeton of Imperial College London,[23] [24] and was carried out at the Centre for Advanced Technology (CAT) in Wales.[25] By the end of the project, the team had built a usable prototype at CAT, determined key operating parameters[26] and shown that there was consumer interest.

In parallel with the LSHTM work and also with Bill and Melinda Gates Foundation funding, Biofilcom (under Kweko Annu) developed a vermifilter toilet which has been commercialised in Ghana and Bangladesh. Development of the GSAP (Ghana Sustainable Aid Project) Microflush vermifilter toilet was also funded by the Bill and Melinda Gates Foundation.

Oxfam subsequently funded the construction of field-based trials in Ethiopia (in 2013), Liberia (in 2013[27]), while ACTED funded the development and construction of a communal (school) vermifilter toilet in Pakistan.

In continuation of the earlier Sanitation Ventures work, in 2013 Bear Valley Ventures was awarded a Development Innovation Ventures grant from USAID to support field testing in three countries and three different settings. This work was carried out in partnership with Oxfam (humanitarian relief camp, Myanmar), Water for People (peri-urban, Uganda) and PriMove (rural, India). After a year long trial the conclusion was that it worked well in all three settings: the results from India have been published.

After field testing Bear Valley Ventures and PriMove (under Ajeet Oak) continued to collaborate from 2014 onwards on developing and marketing the Tiger Toilet band vermifilter toilet to low income rural and peri-urban households. From 2015 to 2017 they worked with the Institute for Transformative Technologies[28] (under Shashi Bulaswar) to rigorously test the product and explore paths to scale. In 2018 Bear Valley Ventures and PriMove set up TBF Environmental Solutions Pvt Ltd to commercialise the Tiger Toilet and related technologies.

Oxfam (under Andy Bastable) have collaborated closely with Dr Claire Furlong to further develop applications for emergency and humanitarian camps.

In 2020 the International Worm-based Sanitation Association was formed under the leadership of Prof. Michael Templeton of Imperial College London to share, develop and promote best practice in vermifiltration for sanitation.[29]

See also

Notes and References

  1. Furlong. C.. Gibson. W. T.. Templeton. M. R.. Taillade. M.. Kassam. F.. Crabb. G.. Goodsell. R.. McQuilkin. J.. Oak. A.. Thakar. G.. Kodgire. M.. 2015-11-26. The development of an onsite sanitation system based on vermifiltration: the 'Tiger Toilet'. Journal of Water, Sanitation and Hygiene for Development. 5. 4. 608–613. 10.2166/washdev.2015.167. 2043-9083. 10044/1/31477. free.
  2. Furlong. C.. Gibson. W. T.. Oak. A.. Thakar. G.. Kodgire. M.. Patankar. R.. 2016-04-01. Technical and user evaluation of a novel worm-based, on-site sanitation system in rural India. Waterlines. 35. 2. 148–162. 10.3362/1756-3488.2016.013. 0262-8104.
  3. Furlong. C.. Lamb. J.. Bastable. A.. 2017. Learning from Oxfam's Tiger Worm Toilets projects. 40th WEDC International Conference, Loughborough, UK.
  4. Hylton. Erin. Noad. Liam. Templeton. Michael R.. Sule. May N.. 2020-06-29. The rate of vermi-compost accumulation within 'Tiger Toilets' in India. Environmental Technology. 1–10. 10.1080/09593330.2020.1789750. 0959-3330. 32597333. 10044/1/81148. 220258149. free.
  5. Book: Snoad, C.. Tiger Worm Toilet: One Stop Shop Manual. Oxfam. 2020. GB.
  6. Web site: Progress on drinking water, sanitation and hygiene: Joint Monitoring Programme 2017 update and SDG baselines. https://web.archive.org/web/20170716004247/http://www.who.int/water_sanitation_health/publications/jmp-2017/en/. July 16, 2017. live. World Health Organization.
  7. News: Parsons. Jeff. The story of Bill Gates and the worm-powered toilet that could change the world. 15 January 2019. 16 December 2019. Metro.
  8. Web site: Tiger Toilet - Bear Valley Ventures. engineeringforchange.org. 16 December 2019.
  9. Web site: Vermifilters for blackwater treatment, "worm toilets", "Tiger worm toilet". SuSanA.
  10. Web site: Are Communal Tiger Worm Toilets a sustainable option for camps?. Furlong. Claire. Polson. Lucy. 11 April 2019. Oxfam. 16 December 2019.
  11. News: Guilbert. Kieran. Tiger worm toilets turn poo into fertilizer in crowded cities and refugee camps. 8 March 2017. 16 December 2019. Reuters.
  12. Web site: TBF Environmental.
  13. Web site: Biofilcom.
  14. Web site: Biolytix.
  15. Web site: NaturalFlow. 29 January 2018.
  16. Web site: A&A Worm Farm Waste Systems.
  17. Web site: Permaculture In Portugal.
  18. Web site: Design and construction of a vermicomposting toilet. 2021-10-16. Vermicomposting Toilets. en-GB.
  19. Web site: Vermifilter.com. vermifilter.com.
  20. Web site: Vermicomposting Toilets.
  21. Web site: History of vermifilter toilet and wikipedia article. 15 February 2020.
  22. Web site: History of vermifilter toilet. 16 February 2020. SuSanA. 15 February 2020.
  23. Web site: Home - Professor Michael Templeton .
  24. Web site: Imperial College London .
  25. Web site: Centre for Alternative Technology.
  26. Furlong. C.. Templeton. M. R.. Gibson. W. T.. 2014-03-26. Processing of human faeces by wet vermifiltration for improved on-site sanitation. Journal of Water, Sanitation and Hygiene for Development. 4. 2. 231–239. 10.2166/washdev.2014.107. 2043-9083. free.
  27. Watako. David. Mougabe. Koslengar. Heath. Thomas. 2016. Tiger worm toilets: lessons learned from constructing household vermicomposting toilets in Liberia. Waterlines. 35. 2. 136–147. 10.3362/1756-3488.2016.012. 26600731. 0262-8104.
  28. Web site: Transformative Technologies.
  29. Web site: International Worm Based Sanitation Association.