A Study on the Potential Release of Hazardous Elements from Municipal Solid Waste

  • Ouyang Tong
    The Institute of Basic Environmental Research, Environmental Control Center Co., Ltd.
  • Torigai Makoto
    The Institute of Basic Environmental Research, Environmental Control Center Co., Ltd.
  • Sakai Ruriko
    The Institute of Basic Environmental Research, Environmental Control Center Co., Ltd.
  • Wang Ning
    The Institute of Basic Environmental Research, Environmental Control Center Co., Ltd.
  • Yun Sun-ja
    The Institute of Basic Environmental Research, Environmental Control Center Co., Ltd.
  • Iwashima Kiyoshi
    The Institute of Basic Environmental Research, Environmental Control Center Co., Ltd.
  • Osako Masahiro
    Department of Waste Management Engineering The Institute of Public Health

Bibliographic Information

Other Title
  • 廃棄物中の有害金属類の溶出ポテンシャルに関する研究
  • ハイキブツ チュウ ノ ユウガイ キンゾクルイ ノ ヨウシュツ ポテンシャル ニ カンスル ケンキュウ チクジ チュウシュツホウ ニ ヨル ヨウシュツ シケン ケッカ ノ ヒョウカ
  • —An Evaluation of Leaching Test Results using Sequential Extraction—
  • ―逐次抽出法による溶出試験結果の評価―

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Abstract

To assess the effectiveness of a leaching test that aims at estimating the release potential of elements, it is necessary to have an understanding of how the major chemical species of objective elements change during leaching. In this study, a sequential extraction (SQE) procedure was employed to evaluate leacheability in a modified availability test (A-test) on As, Cd, Cu, Fe, Mn, Mo, Ni, Pb, Sb and Zn in selected municipal solid waste materials. The degree to which that A-test was effective with respect to the practical potential release limit indicated by the SQE results, and to which that certain chemical speciation form contributed to the released amounts, was quantitatively evaluated by comparing the distribution of different forms of the elements before and after the A-test.<BR>In most samples, the amounts released by the A-test were smaller than the sum of the geochemically extractable fractions obtained by SQE. The A-test under a nitrogenous atmosphere resulted in an increase in the release of As, Sb and Mo, together with Fe and Mn, and a decrease in the release of Cd, Ni, Cu, Pb and Zn. A comparison with the changes in chemical speciation forms subjected to the A-test under different atmospheric conditions, revealed that the difference in release behaviors between the elements was primarily caused by the changes in the moderately reducible fraction, which was regarded as the mixture of Fe and Mn oxides. It is likely that, at least, under the acidic medium (pH 4 ), both the adsorption of cationic elements and the rejection of anionic elements on Fe/Mn-rich oxides are factors controlling mobilization of these elements in municipal solid waste materials when the redox potential changes.

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