科学时代
科學時代
과학시대
SCIENTIFIC EPOCH
2014年
23期
103-106
,共4页
六氟丙烯%六氟环氧丙烷%高温粘土
六氟丙烯%六氟環氧丙烷%高溫粘土
륙불병희%륙불배양병완%고온점토
hexafluoropropylene(HFP)%hexafluoropropylene oxide(HFPO)%the high-temperature clay
本文采用动态穿透曲线法对高温粘土系列进行了初步筛选,通过浸渍法对具有分离效果的8#高温粘土进行了改性,以提高其分离性能。并测定了其改性前后对HFP和HFPO的动态及静态吸附性能,最终筛选出了具有明显分离效果的吸附分离剂。
本文採用動態穿透麯線法對高溫粘土繫列進行瞭初步篩選,通過浸漬法對具有分離效果的8#高溫粘土進行瞭改性,以提高其分離性能。併測定瞭其改性前後對HFP和HFPO的動態及靜態吸附性能,最終篩選齣瞭具有明顯分離效果的吸附分離劑。
본문채용동태천투곡선법대고온점토계렬진행료초보사선,통과침지법대구유분리효과적8#고온점토진행료개성,이제고기분리성능。병측정료기개성전후대HFP화HFPO적동태급정태흡부성능,최종사선출료구유명현분리효과적흡부분리제。
In this paper, we carried on the preliminary filtrating by the dynamic penetration experiment for the high temperature clay series. In order to improve the adsorption activity of the adsorbents, we modified the 8# high-temperature clay which has a certain separation efficiency by impregnation method. We determined the dynamic and static adsorption performance of HFP and HFPO by the before and after modification of 8# high-temperature clay. Eventually we filtrated out the adsorption separation agent which has clear separation effect.
