| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6354975 | Waste Management | 2015 | 8 Pages |
â¢SRF production from 10-40 mm fraction of pre-composted sludge and biomass residues.â¢The material and energy balance of compost and SRF production.â¢Characteristics of raw materials and classification of produced SRF.â¢Results of the efficiency of energy recovery, comparison analysis with - sawdust.
Sewage sludge management is a big problem all over the world because of its large quantities and harmful impact on the environment. Energy conversion through fermentation, compost production from treated sludge for agriculture, especially for growing energetic plants, and treated sludge use for soil remediation are widely used alternatives of sewage sludge management. Recently, in many EU countries the popularity of these methods has decreased due to the sewage sludge content (heavy metals, organic pollutions and other hazards materials). This paper presents research results where the possibility of solid recovered fuel (SRF) production from the separate fraction (10-40Â mm) of pre-composted materials - sewage sludge from municipal waste water treatment plant and biomass residues has been evaluated. The remaining fractions of pre-composted materials can be successfully used for compost or fertiliser production, as the concentration of heavy metals in the analysed composition is reduced in comparison with sewage sludge. During the experiment presented in this paper the volume of analysed biodegradable waste was reduced by 96%: about 20% of input biodegradable waste was recovered to SRF in the form of pellets with 14.25Â MJÂ kgâ1 of the net calorific value, about 23% were composted, the rest - evaporated and discharged in a wastewater. The methods of material-energy balances and comparison analysis of experiment data have been chosen for the environmental impact assessment of this biodegradable waste management alternative. Results of the efficiency of energy recovery from sewage sludge by SRF production and burning, comparison analysis with widely used bio-fuel-sawdust and conclusions made are presented.
