@article{oai:nagasaki-u.repo.nii.ac.jp:00008544,
 author = {Asakura, Hiroshi and Nakagawa, Kei and Endo, Kazuto and Yamada, Masato and Ono, Yusaku and Ono, Yoshiro},
 issue = {1},
 journal = {Journal of Environmental Sciences},
 month = {Jan},
 note = {Landfilling municipal solid waste incineration (MSWI) residue alkalizes the waste layer, causing a subsequent decrease in microbial activity and a delay in the decomposition of organic matter. In this study, efficiencies of neutralization of the leachate and organic matter decomposition in the waste layer in a column filled with MSWI residue using aeration and compost addition were evaluated. Total organic carbon (TOC) reduction in the waste layer is large at high oxygen flow rate (OFR). To effectively accelerate TOC reduction in the waste layer to which compost was added, a high OFR exceeding that by natural ventilation was required. At day 65, the pH of the leachate when OFR was above 102 mol-O2/(day·m3) was lower than that when OFR was below 101 mol-O2/(day·m3). At the same OFR, the pH of waste sample was lower than that of waste sample with compost. Although leachate neutralization could be affected by compost addition, TOC reduction in the waste layer became rather small. It is possible that humic substances in compost prevent the decomposition of TOC in MSWI residue., Journal of Environmental Sciences, 25(1), pp.53-58; 2013},
 pages = {53--58},
 title = {Influence of oxygen flow rate and compost addition on reduction of organic matter in aerated waste layer containing mainly incineration residue},
 volume = {25},
 year = {2013}
}