Your search found 6 records
1 Nikiema, Josiane; Cofie, Olufunke; Impraim, Robert; Drechsel, Pay. 2012. Fortified excreta pellets for agriculture. Paper presented at the Second International Faecal Sludge Management Conference, Durban, South Africa, 29 October - 1 November 2012. 5p.
Excreta ; Agricultural production ; Fertilizers ; Composts ; Faeces ; Irradiation ; Pellets ; Starch crops ; Cassava ; Clay ; Moisture content / Ghana
(Location: IWMI HQ Call no: e-copy only Record No: H045351)
https://publications.iwmi.org/pdf/H045351.pdf
http://www.susana.org/docs_ccbk/susana_download/2-1624-nikiema.pdf
http://www.susana.org/docs_ccbk/susana_download/2-1624-nikiema.pdf
(0.34 MB)
This paper describes the pelletization process of fecal sludge-based fertilizers. The equipment used for the process was fabricated locally in Ghana. Each fertilizer product was individually used for the production of cylindrical pellets. From the current study, the binding material type (cassava starch, either pregelatinized or pretreated by gamma irradiation, or kaolin clay) and concentration (0 to 10 % in mass) as well as moisture content (20-47%) appeared to be the most critical factors during pellets production. It was noticed that the higher the binder concentration, the higher the stability of pellets. This study confirmed that cassava starch is a preferred binding material and that fixing its concentration at 1-3 % could be enough during the pelletization process. The pellets produced in this project had 7.5 to 7.7 mm in diameter, but their length distribution varied depending on the material used.
2 Nikiema, Josiane; Cofie, Olufunke; Impraim, Robert; Adamtey, N. 2013. Processing of fecal sludge to fertilizer pellets using a low-cost technology in Ghana. Environment and Pollution, 2(4):70-87. [doi: https://doi.org/10.5539/ep.v2n4p70]
Fertilizers ; Faecal coliforms ; Sewage sludge ; Pellets ; Composts ; Gamma irradiation ; Moisture content ; Public health ; Analytical methods / Ghana
(Location: IWMI HQ Call no: e-copy only Record No: H046116)
http://www.ccsenet.org/journal/index.php/ep/article/download/28987/17903
https://vlibrary.iwmi.org/pdf/H046116.pdf
https://vlibrary.iwmi.org/pdf/H046116.pdf
(1.50 MB) (1.51MB)
This paper describes a study that was aimed at optimizing the pelletization of fecal sludge-based fertilizers for agricultural use. The process developed is easy to implement and increases the marketability of the products while also addressing a serious health and environmental challenge. The study took place during the period 2011-2012 in Ghana. The fecal sludge, rich in nutrients and organic matter, was dried and used to produce five different fertilizers (i.e., four formulations of compost and one with gamma irradiated material). Each material was then pelletized using locally constructed machinery. Key operating parameters, such as moisture content (10-55% in mass), binder type (clay or starch) and concentration (0-10% in mass), were varied and their impacts on the characteristics of pellets (e.g., amount of fine materials generated, length distribution or stability of pellets, and pellet disintegration rate) were also followed. Given the low analyzing capabilities of developing countries, some simple analytical methods were developed and used to compare pellets produced under different conditions. The results confirmed that the addition of 3% of pregelatinized starch is recommended during pelletization of fecal sludge-based fertilizers. Applicable moisture contents were also identified per fertilizer type, and were found to comprise between 21 and 43%.
3 Impraim, Robert; Nikiema, Josiane; Cofie, Olufunke; Rao, Krishna. 2014. Value from faecal sludge and municipal organic waste: fertilizer cum soil conditioner in Ghana. Paper presented at the 37th WEDC [Water, Engineering and Development Centre] International Conference on Sustainable Water and Sanitation Services for All in a Fast Changing World, Hanoi, Vietnam, 15-19 September 2014. 6p.
Faecal coliforms ; Sewage sludge ; Urban wastes ; Organic wastes ; Waste management ; Soil conditioners ; Nutrients ; Agricultural production ; Productivity ; Sanitation / Ghana
(Location: IWMI HQ Call no: e-copy only Record No: H046659)
(0.39 MB)
Ghana is confronted with waste management challenges. with 20-40% uncollected solid waste in most cities. Also. large volumes of faecal sludge are discharged untreated into the environment. Although these wastes pose serious environmental concerns, they also contain nutrients and organic matter essential for improving soil agricultural productivity. The International Water Management Institute (IWMI), since 2001. has researched into nutrient and organic matter recovery from faecal sludge and organic solid waste in Ghana and some Asian countries such as India, Sri Lanka or Bangladesh. This has led to the production of various formulations of faecal sludge based compost (with "Fortifer" as a generic 'brand '), both in the form ofpellets and powders, and specifically an ongoing project aiming at producing and commercializing the Fortifer in Ghana through a Public Private Partnership. This paper presents a summary of Fortifer technology, project objectives as well as lessons learnt during its implementation.
4 Nikiema, Josiane; Cofie, Olufunke; Impraim, Robert. 2014. Technological options for safe resource recovery from fecal sludge. Colombo, Sri Lanka: International Water Management Institute (IWMI). CGIAR Research Program on Water, Land and Ecosystems (WLE). 47p. (Resource Recovery and Reuse Series 02) [doi: https://doi.org/10.5337/2014.228]
Faecal coliforms ; Sewage sludge ; Waste treatment ; Excreta ; Resource management ; Recycling ; Organic wastes ; Soil fertility ; Water quality ; Gravity flow ; Filtration ; Composting ; Dewatering ; Nutrients ; Sanitation ; Wetlands ; Case studies
(Location: IWMI HQ Call no: IWMI Record No: H046695)
(4 MB)
5 Cofie, Olufunke; Nikiema, Josiane; Impraim, Robert; Adamtey, N.; Paul, Johannes; Kone, D. 2016. Co-composting of solid waste and fecal sludge for nutrient and organic matter recovery. Colombo, Sri Lanka: International Water Management Institute (IWMI). CGIAR Research Program on Water, Land and Ecosystems (WLE). 47p. (Resource Recovery and Reuse Series 03) [doi: https://doi.org/10.5337/2016.204]
Resource recovery ; Environmental effects ; Nutrients ; Solid wastes ; Recycling ; Composting ; Faecal coliforms ; Sewage sludge ; Urbanization ; Urban wastes ; Food wastes ; Waste management ; Developing countries ; Farmyard manure ; Excreta ; Soil organic matter ; Organic wastes ; Organic fertilizers ; Public health ; Health hazards ; Sanitation ; Moisture content ; Temperature ; pH ; Microorganisms ; Aeration ; Pathogens ; Emission ; Livestock ; Heavy metals
(Location: IWMI HQ Call no: IWMI Record No: H047536)
(3 MB)
Biological treatment, composting, in particular, is a relatively simple, durable and inexpensive alternative for stabilizing and reducing biodegradable waste. Co-composting of different waste sources allows to enhance the compost nutrient value. In particular, integration of ‘biosolids’ from the sanitation sector as potential input material for co-composting would provide a solution for the much needed treatment of fecal sludge from on-site sanitation systems, and make use of its high nutrient content. This research paper elaborates in detail the main parameters that govern the co-composting process as well as factors that control the production of a safe and valuable quality compost. It further explains technological options to tailor the final product to crop and farmer needs.
6 Nikiema, Josiane; Impraim, Robert; Cofie, Olufunke; Nartey, Eric; Jayathilake, Nilanthi; Thiel, Felix; Drechsel, Pay. 2020. Training manual for fecal sludge-based compost production and application. Colombo, Sri Lanka: International Water Management Institute (IWMI). CGIAR Research Program on Water, Land and Ecosystems (WLE). 63p. (Resource Recovery and Reuse Series 15) [doi: https://doi.org/10.5337/2020.200]
Resource recovery ; Resource management ; Reuse ; Waste management ; Waste treatment ; Faecal sludge ; Composting ; Organic fertilizers ; Training materials ; Manuals ; Guidelines ; Best practices ; Organic wastes ; Solid wastes ; Liquid wastes ; Urban wastes ; Feedstocks ; Sludge dewatering ; Aerobic treatment ; Decomposition ; Enrichment ; Pelleting ; Product quality ; Monitoring ; Equipment ; Maintenance ; Safety at work ; Protective clothing ; Health hazards ; Pathogens ; Environmental effects ; Fertilizer technology ; Fertilizer application ; Plant nutrition ; Nitrogen ; Carbon ; Product certification / Ghana / Sri Lanka / Greater Accra Region
(Location: IWMI HQ Call no: IWMI Record No: H049476)
(1.96 MB)
Over the last decade, the International Water Management Institute (IWMI) has explored the use of fecal sludge (FS) in combination with other organic waste sources to optimize FS treatment and composting for the production of a safe organic fertilizer, which can – depending on demand – be enriched with crop nutrients or pelletized for volume reduction, delayed decomposition or easier application. Based on IWMI’s experience, this training manual has been compiled for plant managers and trainers to help ensure that staff involved in FS treatment and production, and application of an FS-based co-compost adopt best practices in all processes involved. The manual can be adapted to local needs as required. It also includes information on compost registration and certification, as well as guidelines for co-compost application in the field.
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