@article{oai:miyazaki-u.repo.nii.ac.jp:00001086,
 author = {鈴木, 祥広 and Suzuki, Yoshihiro and 安藤, 康弘 and 丸山, 俊朗 and Maruyama, Toshiroh and 満山, 宗人 and 下津, 義博 and 五味, 謙之 and 森, 広和 and 国包, 章一 and Andoh, Yasuhiro and 丸山, 俊朗 and Maruyama, Toshiroh and Mitsuyama, Munehito and Shimotsu, Yoshihiro and Gomi, Kenji and Mori, Hirokazu and Kunikane, Shoichi},
 issue = {1},
 journal = {水環境学会誌, Journal of Japan Society on Water Environment},
 month = {Jan},
 note = {In some water treatment plants, floating foam scum, which concentrates micropollutants such as di-2-ethylhexyl phthalate （DEHP）, is a serious problem. We assumed the mechanism of foam scum generation to be as follows: DEHP in water adsorbs onto the gas-liquid interface of bubbles and accumulates on the water surface by floating bubbles, and then is concentrated in foam generated by surface-active matter in raw river water. To apply this mechanism, in this study, the removal of DEPH from river water by generating foam using dispersed bubbles was investigated. When river water passed through a foam generator installed in a strong aerator, foam was continuously generated on the water surface and separated as collapsed-foam water. This collapsed-foam water was yellow-brown, and contained high amounts of suspended solids and colloids. However, the amount of collapsed-foam water generated was very small, less than 1% of the total flow volume. In comparison with suspended solids and dissolved organic matters, DEHP was highly concentrated in the collapsed-foam water. The removal efficiencies of DEHP ranged from 7% to 63% using the foam generator. The use of a simple process involving only intensive aeration and foam collection resulted in a high removal efficiency for hydrophobic micropollutants, such as DEHP, which accumulated in the gas-liquid interface from raw tap water.},
 pages = {29--35},
 title = {分散気泡を利用した河川水からのフタル酸ジ-2-エチルヘキシル(DEHP)の除去},
 volume = {29},
 year = {2006},
 yomi = {スズキ, ヨシヒロ and アンドウ, ヤスヒロ and マルヤマ, トシロウ and ミツヤマ, ムネヒト and シモツ, ヨシヒロ and ゴミ, ケンジ and モリ, ヒロカズ and クニカネ, ショウイチ and マルヤマ, トシロウ}
}