Abstract

In urban Sub-Saharan Africa, the collection and transport of faecal sludge (FS) typically ends up with FS directly dumped into the urban environment, as safe treatment and disposal options are too expensive or non-existent. Resource recovery from FS treatment, such as dried FS as an industrial fuel, could provide a financial incentive to increase access to FS management services. In Dakar, Senegal, enhanced drying to reduce the footprint of drying beds for fuel production was evaluated. Greenhouses did not increase drying rates over uncovered beds, however, daily mixing of FS on the surface of the beds resulted in a 6 day reduction to achieve 90% total solids (TS). FS was dried to 90% TS in 2 weeks for loading rates of 100 kg TS/m2*year, and 3 weeks for 150 kg TS/m2*year. The results indicate that with simple but innovative adaptations, footprints of treatment plants could be reduced and/or treatment capacities increased by 20%. FS can be adequately dried in Dakar to produce fuel, meaning 8.25 tons of dried FS could currently be produced daily, contributing 31,403 GJ/year fuel to industries. In addition, this financial incentive could reduce FS that is currently discharged untreated to the environment, and provide an additional 116,705 GJ/year.

Highlights

  • Alsane Seck Cheikh Diop Institute of Environmental Sciences (ISE), Faculty of Sciences and Technics, Cheikh Anta Diop University of Dakar, Dakar-Fann B.P. 5005, Senegal

  • 1,500 m3 Faecal sludge (FS) are delivered daily to three operating faecal sludge treatment plants (FSTP), while it is Loading rates were calculated as 100 kg total solids (TS)/m2*year and 150 kg TS/m2*year based on Heinss et al ( ) and Cofie et al ( )

  • FS was analysed for electrical conductivity (EC), pH, salinity, TS, total volatile solids (TVS), chemical oxygen demand (COD), biochemical oxygen demand (BOD) and Ascaris eggs

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Summary

Introduction

Onsite technologies were only considered as temporary solutions for urban areas, but the reality is they exist in great numbers, are more affordable than sewer-based solutions, and will be required to cope with rapid urbanization in low-income countries (Dodane et al ). It is the provision of onsite technologies, but the collection, transport, treatment, and safe end-use or disposal of FS that needs to be in place to meet human health goals of separating excreta from human contact

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