SOIL Presents at WEDC 2013: Thermophilic Composting of Human Wastes in Uncertain Urban Environments: A Case Study From Haiti
Yesterday, SOIL’s Sasha Kramer presented a paper at the Water, Engineering and Development Centre (WEDC) 36th WEDC International Conference entitled “Thermophilic composting of human wastes in uncertain urban environments: a case study from Haiti”. Co-written by Sasha Kramer, Nick Preneta and Anthony Kilbride, the paper discusses SOIL’s experience building an emergency waste treatment facility in Port-au-Prince to safely treat human wastes as part of the emergency response following the 2010 earthquake.
After the January 2010 earthquake in Haiti nearly 1.5 million people in the capitol were living in camps without access to sanitation. In response to the crisis, international agencies installed thousands of toilets within weeks. However, the absence of waste treatment facilities in the country further complicated the sanitation response. The first treatment facility constructed post-earthquake was a thermophilic composting site designed to treat the wastes from 20,000 earthquake victims living in camps. Despite multiple hurricanes, a cholera epidemic, and political unrest, the SOIL composting facilities have treated over 500,000 gallons of human waste in the past three years, converting it to pathogen free compost, over 10,000 gallons of which has been sold for use in agriculture and reforestation projects. The experience of thermophilic composting in Haiti is unique in scale and duration and can have global implications for waste treatment in both emergency and development contexts.
Full Paper[gview file=”https://www.oursoil.org/wp-content/uploads/2014/11/Thermophillic-composting-in-Haiti.pdf”]
This paper complements the paper presented the day before at the WEDC conference by Anthony Kilbride, available here. For a full list of SOIL’s publications, please visit the SOIL Resources page. For more information on SOIL’s EcoSan education and outreach programs, please visit SOIL’s EcoSan Education page.