Designing local solutions for emptying pit latrines in low-income urban settlements (Malawi)

A lack of effective options in local technology poses challenges when onsite household sanitation facilities are eventually filled to capacity in unplanned settlement areas within Mzuzu City, located in northern Malawi. Vacuum trucks currently dominate the market but focus on emptying septic tanks i...

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Bibliographic Details
Published in:Physics and chemistry of the earth. Parts A/B/C 2017-08, Vol.100, p.336-342
Main Authors: Chipeta, W.C., Holm, R.H., Kamanula, J.F., Mtonga, W.E., de los Reyes, F.L.
Format: Article
Language:English
Subjects:
Fecal sludge management
Gulper
Low-income countries
Pit emptying
Technology
Unplanned settlement areas
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Summary:A lack of effective options in local technology poses challenges when onsite household sanitation facilities are eventually filled to capacity in unplanned settlement areas within Mzuzu City, located in northern Malawi. Vacuum trucks currently dominate the market but focus on emptying septic tanks in the more easily accessible planned settlement areas, rather than servicing the pit latrines common in unplanned settlement areas. As a result, households in the unplanned settlement areas within Mzuzu rely primarily on manual pit emptying (i.e., shoveling by hand) or digging a new pit latrine. These practices have associated health risks and are limited by space constraints. This research focused on filling the technological gap through the design, development, and testing of a pedal powered modified Gulper pump using locally available materials and fabrication. A modified pedal powered Gulper technology was developed and demonstrated to be capable of lifting fecal sludge from a depth of 1.5 m with a mean flow rate of 0.00058 m3/s. If the trash content was low, a typical pit latrine with a volume of 1–4 m3 could be emptied within 1–2 h. Based on the findings in our research Phase IV, the pedal powered Gulper modification is promising as a potential emptying technology for lined pit latrines in unplanned settlement areas. The success rate of the technology is about 17% (5 out 30 sampled lined pit latrines were successful) and reflects the difficulty in finding a single technology that can work well in all types of pit latrines with varying contents. We note that cost should not be the only design criteria and acknowledge the challenge of handling trash in pit latrines. •Innovation in local pit latrine emptying technologies in Malawi is possible.•Design criteria should include cost, safety, and effectiveness.•Trash in pit latrines poses a challenge to emptying.•The success rate of our technology is about 17%.
ISSN:1474-7065
1873-5193
DOI:10.1016/j.pce.2017.02.012