Water, Sanitation, and Hygiene

Clair Null and Silantoi Kisoso with Innovations for Poverty Action in the U.S., along with Michael Kremer of Harvard University, are designing a children's latrine training mat made from easy-to-clean plastic that fits over an existing latrine hole. The sturdy but easy-to-move platform has a child-sized hole that eliminates the fear and risk of falling into the latrine, promoting good sanitation practices and fostering a life-long habit of latrine use.

Andreas G. Koestler and Andrew Larsen of the Fontes Foundation in Norway will design and conduct a small field test in Haiti of a new toilet block system that can be erected as a kit in high-density, difficult to serve communities such as refugee camps. The system will feature urine diverting toilet pans as well as enlarged ventilation areas to help eliminate odors and desiccate feces, and will utilize used billboard fabric as waterproof walls, ceilings, and bladders to store excreta and contain pathogens that can foul water supplies.

Kara Nelson of the University of California, Berkeley in the U.S. proposes to disinfect excreta in latrines by converting the ammonia naturally found in urine and feces into a powerful disinfectant by adding an alkalinizing agent to raise the pH level. By killing pathogens immediately and turning excreta into "safe sludge," all subsequent activities required for excreta management become safer.

Peter Dreher of Livvon LLC in the U.S. is developing a simple, low-cost toilet for resource-poor settings that uses a hand crank to remove the water from infected feces and urine, and converts the feces into dry, harmless, odorless pellets in a sealed bag that can be used for fertilizer or fuel. The air-tight system will also control odor and keep out flies and vermin, and requires no water, chemicals, or electricity. The system will help to contain human pathogens such as strains of Escherichia coli that cause many diseases and are particularly deadly to small children.

Steve Lindsay of the London School of Hygiene and Tropical Medicine in the United Kingdom seeks to demonstrate that flies are transmitters of diarrheal diseases due to their attraction to fecal matter and to food sources, and proposes to design traps that attract, capture and kill flies in latrines. If successful, the reductions in flies may reduce diarrheal diseases in local communities.

Virginia Gardiner of Loowatt Ltd. in the United Kingdom will develop a waterless toilet that uses biodegradable film to safely separate and seal waste into a portable cartridge for local anaerobic digestion. The digester will produce fuel (biogas) and fertilizer, creating local waste treatment economies. In Phase I Gardiner performed market research in Madagascar to adapt the basic toilet system to local contexts and to develop a business model.

Asafu Maradufu of the University of Eastern Africa, Baraton in Kenya proposes to produce a gel-based disinfectant from plant extracts of Senecio lyratipartitus which can be applied to hands. This disinfectant will reduce contamination associated with the practice of anal ablution among certain communities.

Marcos Fioravanti and Chris Canaday of Fundación In Terris in Ecuador will develop an easy-to-use urine-diverting dry toilet that uses a pedal to "flush" feces into a pipe and mix the waste with dry material for faster composting. Following toilet use, pushing the pedal turns an auger in the pipe, withdrawing the waste to eliminate odors and to enable safe sanitation, after which it can be used as fertilizer. In Phase I, they designed, built and laboratory-tested three prototypes with varying designs.

Kin-Ping Wong of Retina Pharma, Inc. in the U.S. proposes to test UV-resistant super-water-repellent silica as a coating for toilets, which could reduce the amount of water needed to clean the toilets after use and improve the surface sanitation of the toilets. The silica coating displays the same very high water repellency as the leaves of the lotus flower.

Elmer Sayre of the WAND Foundation in the Philippines will explore how to close the loop between sanitation, health and food consumption by testing low-cost dry toilets appropriate for most conditions and using the human waste in small-scale agriculture efforts. Results and best practices will then be shared for future scale-up of the project.