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Ch 2. Sanitation management today and in the future

Ch 2. Sanitation management today and in the future. Aeration lagoons in a city sewage treatment plant (J-O Drangert). Women washing clothes in a way which optimises water use (R. Shrestha ). Jan-Olof Drangert, Linköping University, Sweden. 2.1 Management arrangements.

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Ch 2. Sanitation management today and in the future

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  1. Ch 2. Sanitation management today and in the future Aeration lagoons in a city sewage treatment plant (J-O Drangert) Women washing clothes in a way which optimises water use (R. Shrestha) Jan-Olof Drangert, Linköping University, Sweden

  2. 2.1 Managementarrangements Is there one sanitation system that suits all situations, or do we have to choose? at household and community levels Learning objectives: to match management with technology and local conditions Jan-Olof Drangert, Linköping University, Sweden

  3. Changes in our perceptions of urban flows water non-organic items Household, community or city chemicals wastewater WWTP lake food Year 1900: nutrients from human waste were recycled ⇒ but disposal of glass and metal in latrine bins made this impossible ⇒Human-derived nutrients went into the water cycle Year 2000: use of sewagesludge as fertiliser ⇒ but heavy metals and hormones in wastewater made this impossible ⇒ Sludge went to landfill or incineration Jan-Olof Drangert, Linköping University, Sweden

  4. (a) An urban eco-house for a single family Hot water solar heater Roof tanks Rainwater catchment Rainwater catchment Urine-diverting toilet flower garden Dug well for groundwater recharge SODIS drinking water Vegetable garden with urine & composted faecal matter Greywater treatment plant Rainwater collection tank Biosand filter for well water treatment Courtesy of Roshan Shrestha, Nepal

  5. (a 1) Rainwater collection and storage Bio-sand filter for well water Roof catchment for rain Biosand filter Well for groundwater recharge Rainwater pipe Underground tank Underground tank & rainwater flushing Rainwater overflow pipe Groundwater recharge Courtesy of Roshan Shrestha, Nepal

  6. (a 2) Waterless and odourless urine-diverting toilet Porcelain UD-toilet Co-compostbin Co-compost bin Resting bin for faeces Shute Urine tank with tap Collection bin Courtesy of Roshan Shrestha, Nepal

  7. (a 3) Gardening with greywater, urine and composted faecal matter Lawn and flowers on terrace garden SODIS treatment of drinking water Reed bed for treating greywater that is recycled on the terrace Courtesy of Roshan Shrestha, Nepal

  8. Self-contained neighbourhood with six houses in a small town in Australia Courtesy ofGarry Scott, Compost Toilet Systems, Mullumbimby, Australia

  9. (b 1) Some ingenious technical details Rainwater filter box Diversion of cleanrainwater Collectiontubeforthe first rain Fly trap – a simpleplasticbottle cut in two Newlyinstalled container for excreta (Clivus Multrum) Courtesy of Garry Scott, Compost Toilet Systems, Mullumbimby, Australia

  10. (c) A block of semi-detached ecosan houses in Kimberley, South Africa Courtesy of SIPU International, Sweden J-O Drangert, Linköping UniversitySweden

  11. (c 1) The sanitation arrangements at each house Bio-solids Jan-Olof Drangert, Linköping University, Sweden

  12. (c 2) Design solutions in Kimberley, South Africa plastic bucket Small garden Greywater use in the garden Water-less urinal opening to remove bucket Door to reach the bucket from outside of house Kimberley UDT in píeces

  13. (d) Eco-blocks in water-scarce Erdos, China Greywater treatment plant Composting station Pond with effluent 4-5 storey buildings Surrounding farmland Surrounding farmland Source: Zhu Quiang 2008

  14. (d 1) Sanitation arrangements in Erdos eco-town

  15. (d 2) Resident assessment in Erdos Ventilated cabinet Bent vent pipes to evacuate bin Four types of problems – frequency of occurrence in August 2008 Source: Zhu Quiang 2008

  16. (e)High-rise housing complex in the water-scarce city of Bangalore, India J-O Drangert, Linköping University, Sweden

  17. (e 1) Mini-wastewater treatment plant in the cellar Carbon filter Pressure sand filter Sedimentation and aeration tanks Dewatering compressor J-O Drangert, Linköping University, Sweden

  18. (e 2) Experiences and future trends Ganesh Consultancy & Analytical Services, Bangalore (Mini-WWTP)

  19. (f) Self-contained housing complex 25 L WC 15 L 50 L 10 L 130 L 80 L wetland STP 130 55 L groundwater recharge 70 L well water 80 L groundwater Jan-Olof Drangert, Linköping University, Sweden

  20. Principle: Organic ≠other solid waste Stormwater ≠sewage Industrial≠household wastewater Black toilet water ≠ greywater Faeces ≠urine Strategies for sanitation improvements Jan-Olof Drangert, Linköping University, Sweden

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