Robert Impraim scite author profile

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%.

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Co-composting of solid waste and fecal sludge for nutrient and organic matter recovery

Cofie¹,

Nikiema²,

Impraim

et al. 2016

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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

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Enhanced nitrogen retention by lignite during poultry litter composting

Cao

Bai

Han

et al. 2020

Journal of Cleaner Production

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Lignite effects on NH3, N2O, CO2 and CH4 emissions during composting of manure

Bai

Impraim

Coates

et al. 2020

Journal of Environmental Management

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Robert Impraim

Technological options for safe resource recovery from fecal sludge

Processing of Fecal Sludge to Fertilizer Pellets Using a Low-Cost Technology in Ghana

Co-composting of solid waste and fecal sludge for nutrient and organic matter recovery

Enhanced nitrogen retention by lignite during poultry litter composting

Lignite effects on NH3, N2O, CO2 and CH4 emissions during composting of manure

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