Washing without water or an electrical connection – applied ecological engineering makes this possible
Closed-loop washing machines that do not need any water or an electrical connection and a dry toilet that works without flushing and also supplies fertiliser. These are just two applications that have been developed as part of the ecological engineering research conducted at the ZHAW. A demo unit based at the Wädenswil campus shows how this technology works in everyday life. On Saturday, 7 May, the public will have the opportunity to try out the prototype for themselves and take part in a long-term practical test. The new “1001 Kreislauf” app also provides deeper insight into this field of research.
Crop failures and the hot summers we have experienced in the recent past have shown that water shortages are also increasingly becoming an issue in Switzerland due to climate change. In most cases, wastewater from households, toilets and industrial facilities still makes its way to sewage treatment plants, where it is cleaned meticulously in various stages. The resulting sludge, which contains both valuable nutrients and toxic substances, also ultimately has to be disposed of in an equally complex manner. This isn’t the case, however, in the ZHAW laundromat based in the MODO (Mobile Ecotechnology Demonstration Object) demo unit: In this prototype, the water is cleaned separately. Following the wash cycle, the water is filtered in an ecological purification process, biologically cleaned and then directly reused for the next washing load. Any water that is lost in the wet clothes removed from the washing machine and during the cleaning process is replenished using rainwater. The electricity required for the washing machine pumps is provided by a photovoltaic system on the roof. Using this concept, it has been possible to develop a closed-loop washing machine that is completely independent of the central water and power supply.
Dry toilet with the separate treatment of urine and faeces
The dry separation toilet integrated in the demo unit also works according to the closed-loop principle. Urine and faeces are collected separately, with the urine going directly into a tank situated under the unit. It can subsequently be processed and used as fertiliser. The faeces are transported to a separate area via a conveyor belt operated using a foot pedal. As the faeces dry very quickly in the air flow, any unpleasant odours are kept within limits. The faeces is later used to produce so-called biochar to improve soil quality. It is this last step, in particular, that is of interest to the ZHAW researchers, who want to use these valuable nutrients as fertilisers in an effective and safe manner. Those who use the toilet wash their hands using purified water from the washing machines. This wastewater is also treated again.
Project in South Africa with further developed prototype
The concept of a completely self-sufficient laundromat is already being developed further as part of the “LaundReCycle” project in South Africa with the objective of creating a marketable solution. “Water shortages are a major issue there. And many people do not have access to a washing machine, in part also due to an insufficient water and power supply,” explains project manager Devi Bühler. “The pilot project in Cape Town aims to provide access to washing facilities, on the one hand, and to promote the sustainable user of water and energy resources, on the other.”
Public to become part of the research project
In order to bring to life the closed-loop principle in ecotechnological research and gain insights into its suitability for everyday use, the Institute of Natural Resource Sciences will launch regular public washing days at the ZHAW Grüental campus in Wädenswil from 7 May (see information box). Interested individuals are invited to bring their laundry to be washed in the demo unit. Visitors can also give the integrated dry toilet a try. Users will thus become part of the research project investigating the used of closed-loop technology.
New app provides insights into research
Together with the self-sufficient laundromat, the new “1001 Kreislauf” app (Android and iOS), which invites you to take a (partly virtual) ecotechnology tour in the gardens of the Grüental campus, is also being launched. Using augmented reality, the free app allows users to gain direct insights into these and other research topics from the field of ecotechnology. With the help of their smartphone, visitors get to see what is going on behind the laboratory doors and gain background information from the researchers involved. And all of this is supplemented by narrative elements about how the research being performed could change the world.
The laundromat of the future in the “MODO” demo unit is freely accessible on the ZHAW Grüental campus in Wädenswil. Wash days will be held from 7 May (except in the case of rain): Saturdays between 11 a.m. and 4 p.m. and Wednesdays between 9.30 a.m. and 3 p.m.
The integrated dry toilet is open daily from 8 a.m. to 5 p.m.
The ZHAW Grüental campus in Wädenswil as a meeting place
The gardens of the ZHAW Grüental campus in Wädenswil have been expanded in recent years. Here, researchers, students and visitors can conduct research on, learn about and discuss sustainability or take part in regular tours and public events. The new self-guided tour made possible by the “1001 Kreislauf” app and the MODO demo unit of the Institute of Natural Resource Sciences contribute to the dialogue with the public about sustainability in Switzerland.
Downloads (photos ©ZHAW)
- Media release “Washing without water or an electrical connection – applied ecological engineering makes this possible” (in German) (PDF 141.0 KB)
- Image 1: The MODO demo unit from the outside
- Image 2: Restroom with a dry toilet, urinal and washbasin
- Image 3: Washroom with washing machine and cleaning technology
- Image 4: Closed-loop washing machine in use
- Diagram of the MODO closed-loop dry separation toilet (PDF 152.8 KB)
- Diagram of the MODO closed-loop washing machine (PDF 325.1 KB)
- Functionality of the MODO test facility (PDF 257.3 KB)
- Devi Bühler, project manager, Institute of Natural Resource Sciences, ZHAW School of Life Sciences und Facility Management, Wädenswil. 058 934 58 16, firstname.lastname@example.org
- Cornelia Sidler, Media Relations, ZHAW School of Life Sciences and Facility Management, Wädenswil. 058 934 53 66, email@example.com