直近一年間の累計
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ID 118626
著者
Hashimoto, Takumi Tokushima University
Yamamoto, Takaiku Kyoto University
Yano, Hiromu JFE Steel
Matsunaga, Hisahiro JFE Steel
Nakamura, Yoshiyuki JFE Steel
キーワード
Phosphorus recovery
Sewage sludge molten slag
Acid elution
Alkali precipitation
Ion-exchange
資料タイプ
学術雑誌論文
抄録
In the present study, we developed a technology for concentrating and recovering phosphorus from slag-like phosphorus-containing unused resources and applied it to slag discharged during the latest steelmaking process, that is, double-slag refining process (DRP). The technology we developed consists of the following four processes: Process (1) is the initial acid elution; Process (2) involves alkali precipitation; Process (3) is the second acid elution; and, Process (4) utilizes ion-exchange. In Process (1), the addition of DPR slag to 0.5 M of a nitric acid solution for 24 min resulted in sufficient phosphorus dissolution. In Process (2), ammonia was added to the dissolved solution, and phosphorus was precipitated with high efficiency. The timing of the addition of ammonia significantly influenced the removal of silicon and iron, which would have been inconvenient to accomplish in subsequent processes. In Process (3), the precipitation obtained in Process (2) was re-dissolved in a nitric acid solution. The dissolution of phosphorus together with other elements progressed sufficiently, and we confirmed that silicon could be completely separated as silica by using high-concentration nitric acid at this stage. The fact that silicon could be removed during Process (3) was an important finding, since silicon could not have been separated in the Process (4). In Process (4), by passing the phosphorus-containing solution obtained in Process (3) through an ion exchange resin, elements other than phosphorus and silicon could be removed, which confirms that the range of applications for this technology could be expanded.
掲載誌名
Phosphorus Research Bulletin
ISSN
09184783
18822363
cat書誌ID
AA12109680
出版者
Japanese Association of Inorganic Phosphorus Chemistry
39
開始ページ
23
終了ページ
28
発行日
2023
EDB ID
出版社版DOI
出版社版URL
フルテキストファイル
言語
eng
著者版フラグ
出版社版
部局
理工学系