| Abstract [eng] |
The latest World Food Security Outlook predicted stabilization in global food security by 2024; however, nearly one billion people still face the threat of food insecurity. Fertilisers, crucial for maximizing crop yields, are the subject of scrutiny due to their environmental impact and health concerns. Efforts are being made to use fertilisers more efficiently and maintain soil nutrient balance to address these issues. In this research, different solid and liquid wastes from the food industry were used to granulate organic biofertilisers with a rotary drum granulator. This included buckwheat biomass (BBM), buckwheat husks (BH), buckwheat husk ash (BHA), bone meal (BM), molasses solution (MS), and beaten eggs (BE). Using standardized fertiliser testing methods, it was found that the biofertilisers produced by the drum granulator comply with the requirements for bulk fertilisers, as they are rich in plant nutrients, the static strength of their granules is high (7–14 N/granule), and their moisture content is higher (4–8%) than that of conventional mineral fertilisers, but the hygroscopicity of the granules when stored in standard conditions (30–60% humidity, temperature of 20–25 °C) is low. Due to their slightly alkaline pH, it is likely that such fertilisers could be used in acidic soils and would have a double effect—they would improve plant growth and soil properties (increase the amount of organic matter and reduce acidity). |
