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Estimating the potential for resource recovery from productive sanitation in urban areas
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Estimating the potential for resource recovery from productive sanitation in urban areas
Dear All,
This is to introduce to you my MSc thesis which is now uploaded in the SuSanA library. This thesis was done at the Stockholm Environmental Institute as part of the Resource Value Mapping (REVAMP) project, working with Kim Andersson and Arno Rosemarin and being supervised by Helfrid Schulte-Herbrüggen at KTH Royal Institute of Technology. It is embedded within the SEI Initiative on Sanitation (See more: www.sei-international.org/sustainable-sanitation and forum.susana.org/forum/categories/142-up...lyst-for-development). A 4-page discussion brief has also been published based on this thesis and it is also available in the SuSanA library.
Abstract
To-date, sanitation and waste management has mainly been approached from a public and environmental health perspective and this implies that excreta and other organic waste streams are seen not only as a hazard to quickly get rid of but also as only a very costly menace to manage. However, looking at sanitary and other urban organic waste streams from a resource recovery perspective provides an avenue for solutions with multiple co-benefits. Revenues from reuse products can act as an incentive for improving sanitation and waste management infrastructure while also covering part or all of the investment and operation costs for the same. Until now, estimating the potential for resource recovery from sanitation systems and technologies has been largely done on a case by case basis according to project or geography with no standardized universal tools or methodologies being used across the world. This study aimed at developing a generic model for the rapid quantification of the resource recovery potential of organic waste streams in urban areas.
To develop the model, the mathematical relationships between major waste stream characterization parameters and the amounts of reuse products derived from treatment processes, were obtained from published literature and used to formulate equations which were designed into functions in Excel spreadsheets. Testing with waste stream flows and characterization data from Kampala (for faecal sludge, sewage sludge and organic municipal solid waste) showed that the three waste streams could altogether yield; up to 361,200 Nm3 of biogas (which could replace the amount of firewood used by 824,000 people in the city daily) or 752 tonnes of solid combustion fuel (which could replace the amount of firewood used by 1,108,700 people in the city daily) or 198 tonnes of Black Soldier Fly larvae (which could replace 134 tonnes of dry fish per day, currently one of the major animal protein feed ingredient) or 909 tonnes of compost fertilizer (with an amount of nutrients enough to substitute for two tonnes of urea), per day. The results from this model could therefore be a simple way to provide initial decision support towards planning for resource-oriented waste management systems by urban authorities, without the burden of having to do full scale feasibility studies. By highlighting the resource potential in urban waste streams, the model could also provide an incentive for integrated management of the various urban waste streams with a resource recovery and water-energy-food nexus perspective.
Download links
Download the full text of the thesis from the SuSanA Library: www.susana.org/en/resources/library/details/2637
Download the 4-page discussion brief introducing the REVAMP tool from the SuSanA library: www.susana.org/en/resources/library/details/2638
Here’s the 15-minute presentation I made about the REVAMP tool at the 22nd SuSanA meeting in Stockholm:
If you have any questions about this thesis, the REVAMP tool or resource recovery in general, I am more than glad to discuss!
Regards,
Daniel
This is to introduce to you my MSc thesis which is now uploaded in the SuSanA library. This thesis was done at the Stockholm Environmental Institute as part of the Resource Value Mapping (REVAMP) project, working with Kim Andersson and Arno Rosemarin and being supervised by Helfrid Schulte-Herbrüggen at KTH Royal Institute of Technology. It is embedded within the SEI Initiative on Sanitation (See more: www.sei-international.org/sustainable-sanitation and forum.susana.org/forum/categories/142-up...lyst-for-development). A 4-page discussion brief has also been published based on this thesis and it is also available in the SuSanA library.
Abstract
To-date, sanitation and waste management has mainly been approached from a public and environmental health perspective and this implies that excreta and other organic waste streams are seen not only as a hazard to quickly get rid of but also as only a very costly menace to manage. However, looking at sanitary and other urban organic waste streams from a resource recovery perspective provides an avenue for solutions with multiple co-benefits. Revenues from reuse products can act as an incentive for improving sanitation and waste management infrastructure while also covering part or all of the investment and operation costs for the same. Until now, estimating the potential for resource recovery from sanitation systems and technologies has been largely done on a case by case basis according to project or geography with no standardized universal tools or methodologies being used across the world. This study aimed at developing a generic model for the rapid quantification of the resource recovery potential of organic waste streams in urban areas.
To develop the model, the mathematical relationships between major waste stream characterization parameters and the amounts of reuse products derived from treatment processes, were obtained from published literature and used to formulate equations which were designed into functions in Excel spreadsheets. Testing with waste stream flows and characterization data from Kampala (for faecal sludge, sewage sludge and organic municipal solid waste) showed that the three waste streams could altogether yield; up to 361,200 Nm3 of biogas (which could replace the amount of firewood used by 824,000 people in the city daily) or 752 tonnes of solid combustion fuel (which could replace the amount of firewood used by 1,108,700 people in the city daily) or 198 tonnes of Black Soldier Fly larvae (which could replace 134 tonnes of dry fish per day, currently one of the major animal protein feed ingredient) or 909 tonnes of compost fertilizer (with an amount of nutrients enough to substitute for two tonnes of urea), per day. The results from this model could therefore be a simple way to provide initial decision support towards planning for resource-oriented waste management systems by urban authorities, without the burden of having to do full scale feasibility studies. By highlighting the resource potential in urban waste streams, the model could also provide an incentive for integrated management of the various urban waste streams with a resource recovery and water-energy-food nexus perspective.
Download links
Download the full text of the thesis from the SuSanA Library: www.susana.org/en/resources/library/details/2637
Download the 4-page discussion brief introducing the REVAMP tool from the SuSanA library: www.susana.org/en/resources/library/details/2638
Here’s the 15-minute presentation I made about the REVAMP tool at the 22nd SuSanA meeting in Stockholm:
If you have any questions about this thesis, the REVAMP tool or resource recovery in general, I am more than glad to discuss!
Regards,
Daniel
Daniel Ddiba
Co-lead for SuSanA WG5: Productive sanitation and food security
Research Associate at Stockholm Environment Institute
www.sei.org/revamp
Skype: daniel.ddiba
LinkedIn: Daniel Ddiba
Twitter: @DanielDdiba
Co-lead for SuSanA WG5: Productive sanitation and food security
Research Associate at Stockholm Environment Institute
www.sei.org/revamp
Skype: daniel.ddiba
LinkedIn: Daniel Ddiba
Twitter: @DanielDdiba
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