| Literature DB >> 16876397 |
Abstract
Bioconversion of sugar and distillery industrial wastes with other biodegradables into enriched compost is an important possibility in need of research. In this paper, changes in temperature and physico-chemical (pH, NH4+-N, C/N ratio, CEC) parameters during windrow composting, related to biological stabilization of the compost, were studied. The rise in temperature, which occurred as composting progressed, was accompanied by an increase in NH4+-N and the passage of the thermophilic phase to mesophilic took place between 90 and 105 days. This overall pattern was observed in all composting mixes, whereby the concentrations of NH4+-N increased rapidly and then declined gradually over the course of monitoring pari passu with increase in NO3- -N. The C/N ratios of the composting mixes decreased substantially by the 90th day in full thermophilic phase and became comparatively stable later on. Addition of additives showed potential in improving the C/N ratios. Increases in cation exchange capacity (CEC) and the germination index value of a sensitive crop (Raphanus sativus) had value in establishing the optimum degree of maturity. The rise and fall of temperature and changes in NH4+-N concentrations, C/N ratios and CEC over time proved to be reliable indicators of the progress of the composting process for establishing biological stability and compost maturity.Entities:
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Year: 2006 PMID: 16876397 DOI: 10.1016/j.wasman.2006.04.020
Source DB: PubMed Journal: Waste Manag ISSN: 0956-053X Impact factor: 7.145